Fundamentals of Electrical Engineering and Electronic Design is a highly applied professional platform course. The main purpose of the course is to enable learners to master the basic theories, fundamental knowledge, and essential analytical and problem-solving methods of various major branches of electrical and electronic technology. It aims to empower learners to use electrical and electronic theories to construct circuit models from practical problems, choose appropriate solving methods, and quickly find optimal or satisfactory solutions using software. Through training students in practical (electronic) circuit design, the course cultivates their overall thinking and application awareness in electronic circuit design, enhances learners' abilities to analyze and solve real-world problems, and lays a solid foundation for further study in subsequent courses.
Overview
Syllabus
- Chapter 1 Circuit Fundamentals
- 1-1 Introduction
- 1-2 Basic Physical Quantities in Circuits
- 1-3 Basic Laws of Circuits
- 1-4 Circuit Elements
- 1-5 Introduction to Multisim
- 1-6 Using a Multimeter
- Chapter 1Test
- Chapter 2 Resistor Circuit
- 2-1 Resistance in Series and Parallel
- 2-2 Equivalent Resistance
- 2-3 Methods for Analyzing Electrical Circuits
- 2-4 Sine Wave AC Resistor Circuit
- 2-5 Three-phase AC resistive circuit
- 2-6 Maximum Power Transfer
- 2-7 Resistance Circuit Analysis Using Multisim
- 2-8 Design of a Simple Resistor Measurement Instrument
- Chapter 2 Test
- Chapter 3 Inductor Circuit
- 3-1 Inductor Series and Parallel Connections
- 3-2 Transient DC Circuit in RL
- 3-3 AC Inductance Circuit
- 3-4 Magnetic Circuits and Transformers
- 3-5 AC Motor
- 3-6 Inductive Circuit Analysis Using Multisim
- 3-7 Fluorescent Lamp Circuit and Power Factor Improvement Experiment
- Chapter 3 Test
- Chapter 4 Capacitor Circuit
- 4-1 Series and Parallel Capacitors
- 4-2 Charging and Discharging of Capacitors
- 4-3 Interacting with RLC Circuits
- 4-4 Frequency Characteristics
- 4-5 Capacitive Circuit Analysis Using Multisim
- Chapter 4 Test
- Chapter 5 Diode Circuit
- 5-1 DC stabilized power supply
- 5-2 Design of DC Voltage Regulators
- Chapter 5 Test
- Chapter 6 Operational Amplifier Circuit
- 6-1 Signal Operational Amplifier Circuit
- 6-2 Signal Processing Amplifier Circuit
- 6-3 Operational Amplifier Circuit Analysis Using Multisim
- 6-4 Design of Voltage Upper Limit Alarm Circuits
- Chapter 6 Test
- Chapter 7 Transistor Logic Circuit
- 7-1 Logic Gate Circuit
- 7-2 Combination Logic Circuit
- 7-3 Flip-Flop
- 7-4 Sequential Logic Circuit
- 7-5 Application of Integrating 555 Timer in the Generation and Shaping of Pulse Waveforms
- 7-6 Digital Circuit Analysis Using Multisim
- 7-7 Design of Anti-Theft Alarm Circuits
- Chapter 7 Test
- Chapter 8 Control, Measurement, and Conversion
- 8-1 Relay-Contactor Control
- 8-2 Sensor
- 8-3 Digital-to-Analog/Analog-to-Digital Converter
- Chapter 8 Test
- Chapter 9 Comprehensive Design of Electronic Circuits
- 9-1 Touch Switch Circuit
- 9-2 Simple Microphone Design
- 9-3 Application Design of 555 Time-Base Circuit
- 9-4 Comprehensive Design of Digital Control Circuits
- Final Examination
Taught by
Ma Shangang, Jin Fubao, Tang Yan, Liang Bin, Li Zhaonian, and Han Yide
