电路分析基础（Electrical Circuit Principles）_苏州工学院

Electrical Circuit Principles is one of the most vital professional basic courses for Electronic Information Engineering, Electronic Information Science and Technology, and Optoelectronic Information Science and Engineering majors. Understanding how components work individually and collectively is the basis for designing, manufacturing, and troubleshooting all kinds of electronic devices and systems.

By learning this course, the students can acquire much knowledge of circuits, including the basic principles, basic methods of analysis, and fundamental experimental ability. What's more, it can also enhance the students' capacity of logical analyzing and ability to solve practical circuit problems, which serves as a solid foundation for the learning of further relevant specialized courses, such as digital and analogue electronics, signals and systems.

By learning this course, the students can acquire much knowledge of circuits, including the basic principles, basic methods of analysis, and fundamental experimental ability. What's more, it can also enhance the students' capacity of logical analyzing and ability to solve practical circuit problems, which serves as a solid foundation for the learning of further relevant specialized courses.

Introduction

0 Course Introduction and Systems of Units

Electric Circuit Variables

1.1 Electric Circuits and Current

1.2 Voltage and Reference Direction

1.3 Power and Energy

Circuit Elements

2.1 Engineering and Linear Models

2.2 Resistors

2.3 Independent Sources

2.4 Dependent Sources

Resistive Circuits

3.1 Kirchhoff's Laws

3.2 Series Resistors and Voltage Division

3.3 Parallel Resistors and Current Division

3.4 Series Voltage Sources and Parallel Current Sources

Methods of Analysis of Resistive Circuits

4.1 Node Voltage Analysis with Current Sources

4.2 Node Voltage Analysis with Voltage Sources and Dependent Sources

4.3 Mesh Current Analysis with Voltage Sources

4.4 Mesh Current Analysis with Current Sources

4.5 Mesh Current Analysis with Dependent Sources

Circuit Theorems

5.1 Source Transformations

5.2 Superposition

5.3 Thevenin’s Theorem and Norton's Theorem

5.4 Maximum Power Transfer

Energy Storage Elements

6.1 Capacitors

6.2 Inductors

6.3 Initial Conditions of Switched Circuits

The Complete Response of RL and RC Circuits

7.1 First-Order Circuits

7.2 The Response of a First-Order Circuit to a Constant Input

7.3 Sequential Switching

7.4 The Unit Step Source

Sinusoidal Steady-State Analysis

8.1 Sinusoidal Sources

8.2 Phasors and Sinusoids

8.3 Impedances

8.4 Equivalent Impedances and Equivalent Circuits

8.5 Superposition and Phasor Diagrams

AC Steady-State Power

9.1 Instantaneous Power and Average Power

9.2 Effective Value of a Periodic Waveform

9.3 Complex Power and the Maximum Power Transfer Theorem

9.4 Coupled Inductors

9.5 The Ideal Transformer

9.6 Three-Phase Voltage

Filter Circuits

10.1 Decibels and Filters

10.2 R-C and R-L Filters

10.3 Bode Plots

展开全部

College Physics, Fundamentals of Engineering Mathematics Analysis

The study of this course includes: watching lecture videos, completing coursework, completing the unit quizzes, participating in course discussions, taking the mid-semester exam, and taking the final exam.

Course assessment is composed of 4 categories:

1. Coursework: 10%;

2. Offline experiments&reports: 30%;

3. Lecture Tests: 20%;

4. Offline closed-book mid-semester exam: 10%;

5. Offline closed-book final exam: 30%.

1. Richard C. Dorf, James A. Svoboda. Dorf's Introduction to Electric Circuits, 9th Edition, February 2018, ISBN: 9781119456162(e-book), 9781119454151(print)

2. 邱关源主编. 电路(第6版). 高等教育出版社, 2022年6月, ISBN: 978-7-04-056553-9

3. Robert L. Boylestad. Introductory Circuit Analysis, 13th Edition, January 2016, ISBN: 9781292098951

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