The analog electronic technology is a basic course for undergraduates majoring in electrical, and electronic information majors, which has strong practicality and engineering characteristics.
Through the study of the electronic devices, basic circuits and the system analysis and design, this course enables learners to acquire basic knowledge, basic theory and basic skills in electronic technology, laying a solid foundation for in-depth study and practical application of electronic technology.
In this course, you will learn about single-transistor amplifier circuits, power amplifiers, op-amp circuits, and current source used for active biasing or active loads. also the differential amplifier that eliminates noise and interference, and a feedback amplifier circuit that implements closed-loop automatic control.
This course features virtually all of its course materials online, including lecture notes, online video and the exercise, and there are a lot of Multisim simulations to help you understand the analog circuits.
Introduction
Lecture 0 Introduction of Analog Electronics Technique
Lecture 1 The Ideal Operational Amplifier
1.0 Preview of the Operational Amplifier
1.1 The Operational Amplifier
1.2 Inverting Amplifier
1.3 Summing Amplifier
1.4 Noninverting Amplifier
1.5 Op-Amp Applications
1.6 Detailed Explanation of Exercises for Op-amp
Test questions for The Ideal Operational Amplifier
Lecture 2 Semiconductor Materials and Diodes Circuits
2.1 Semiconductor Materials and Properties
2.2 The pn Junction
2.3 Diode Circuits: DC Analysis and Models
2.4 Diode Circuits: AC Equivalent Circuit
2.5 Other Diode Types
2.6 Rectifier Circuits
2.7 Clipper and Clamper Circuits
2.8 Multiple-Diode Circuits
2.9 Detailed Explanation of Exercises for Diode Circuits
2.10 Excellent experimental report
Test questions for Semiconductor Materials and Diodes Circuits
Lecture 3 The Field-Effect Transistor
3.1.1 N-channel Enhancement-Mode MOSFET
3.1.2 Ideal MOSFET Current-Voltage Characteristics
3.1.3 Circuit Symbols and Conventions
3.2 MOSFET DC Circuit Analysis
3.3 Detailed Explanation of Exercises for the FET
Test questions for The Field-Effect Transistor
Lecture 4 Basic FET Amplifiers
4.1 The MOSFET Amplifier
4.2 Basic Transistor Amplifier Configurations
4.3 The Common-Source Amplifier
4.4 The Common-Drain Amplifier
4.5 The Common-Gate Configuration
4.6 The Three Basic Amplifier Configurations: Summary and Comparison
4.7 Multistage Amplifiers
4.8 An Example for CS amplifier
4.9 Detailed Explanation of Exercises for Basic FET Amplifiers
Test questions for Basic FET Amplifiers
Lecture 5 The Bipolar Junction Transistor
5.1 Basic Bipolar Junction Transistor
5.2 DC Analysis of Transistor Circuits
5.3 Basic Transistor Applications
5.4 Bipolar Transistor Biasing
5.5 Detailed Explanation of Exercises for BJT
Test questions for The Bipolar Junction Transistor
Lecture 6 Basic BJT Amplifiers
6.1 Analog Signals and Linear Amplifiers
6.2 The Bipolar Linear Amplifier
6.3 Basic Transistor Amplifier Configurations
6.4 Common-Emitter Amplifiers
6.5 Common-Collector Amplifier
6.6 Common-Base Amplifier
6.7 The Three Basic Amplifiers: Summary and Comparison
6.8 Multistage Amplifiers
6.9 Design Application:Audio Amplifier
6.10 Detailed Explanation of Exercises for BJT Amplifiers
6.11 Excellent experimental report
Test questions for Basic BJT Amplifiers
Lecture 7 Frequency Response
7.1 Amplifier Frequency Response
7.2 System Transfer Functions
7.3 Frequency Response: Transistor Amplifiers with Circuit Capacitors
7.4 Frequency Response: Bipolar Transistor
Test questions for Frequency Response
Lecture 8 Output Stages and Power Amplifiers
8.1 Power Amplifiers
8.2 Power Transistors
8.3 Classes of Amplifiers
8.4 Class-AB Push-Pull Complementary Output Stages
8.5 Summary of the Power Amplifiers
8.6 Detailed Explanation of Exercises for Power Amplifiers
Test questions for Output Stages and Power Amplifiers
Lecture 9 Integrated Circuit Biasing and Active Loads
9.1 Bipolar Transistor Current Sources
9.2 FET Current Sources
9.3 Circuits with Active Loads
9.4 Exercises for Current Source
Test questions for Integrated Circuit Biasing and Active Loads
Lecture 10 Differential and Multistage Amplifiers
10.0 Preview
10.1 The Differential Amplifier
10.2 Basic BJT Differential Pair
10.3 Basic FET Differential Pair
10.4 Differential Amplifier with Active Load
Test questions for Differential and Multistage Amplifiers
Lecture 11 Feedback and Stability
11.1 Introduction to Feedback
11.2 Basic Feedback Concepts
11.3 Ideal Feedback Topologies
11.4 voltage (Series-Shunt) Amplifiers
11.5 Current (Shunt-Series) Amplifiers
11.6 Transconductance(Sereis-Series) Amplifiers
11.7 Transresistance (Shunt-Shunt) Amplifiers
11.8 Loop Gain
11.9 Stability of the Feedback Circuit
11.10 Detailed Explanation of Exercises for Feedback
Test questions for Feedback and Stability
Lecture 12 Applications and Design of Integrated Circuits
12.1 Active Filters
12.2 Oscillators
12.3 Schmitt Trigger Circuits
12.4 Nonsinusoidal Oscillators
12.5 Voltage Regulators
Test questions for Applications and Design of Integrated Circuits