Electric Circuits for Electrical Engineering and Electronics (Video On Demand)

In Electric Circuits for Electrical Engineering and Electronics (Video On Demand), you'll learn ...

• Electrical Engineering and Electronics fundamentals
• How resistors, capacitors, and inductors are used in electric circuits and electronics
• Basic electric circuit analysis techniques using Kirchhoff's voltage and current laws, nodal analysis, and loop analysis

Overview

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Credit: 6 PDH

This course is designed to provide a complete overview of electric circuit analysis used in electrical engineering and electronics engineering. Electric circuit analysis is the most fundamental concept for electrical engineering, electronics engineering, and computer engineering. It is for that reason that electric circuit analysis is usually the first course taught in electrical, electronics, and computer engineering programs at universities, as basically anything related to electrical, electronics, or computer engineering stems from electric circuit analysis.

In this course, you will learn everything about electric circuits and electronics, from the basics, such as what an electric circuit is and the fundamentals of electrical quantities like voltage, current, and power, all the way to complex techniques for analyzing electric and electronics circuits. We will be discussing the elements of an electrical circuit at its most basic level, electrical quantities, and the sources of electricity. We will then discuss the analysis of direct current (DC) circuits, starting from basic analysis techniques such as Kirchhoff's voltage law and Kirchhoff's current law (KVL and KCL), voltage division, current division, nodal analysis, and loop analysis. We will also be discussing how complex resistive circuits can be simplified into equivalent circuits for easier analysis of electric circuits and electronics.

The course’s focus will then shift to advanced analysis techniques for electric circuits and electronics such as the superposition theorem, Thevenin's theorem, and Norton's theorem, as well as passive components in circuits that are able to store energy: capacitors and inductors. We will cover the fundamentals of capacitors and inductors, how they store energy, and how to simplify complex circuits containing combinations of capacitors and inductors into simpler circuits for easier analysis of electric circuits and electronics. Finally, we will discuss the analysis of first-order electric circuits during transients.

In each section, several examples are solved to illustrate how to analyze practical circuits.

Specific Knowledge or Skill Obtained

This course teaches the following specific knowledge and skills:

• Basic definitions of electric circuits and electronics and the fundamental quantities in circuits, such as voltage and current
• The differences between direct current (DC) and alternating current (AC)
• Sources of electricity in electric circuits and electronics
• A simplification of resistive, capacitive, and inductive circuits
• Advanced electric circuit analysis techniques, such as the superposition theorem, Thévenin's theorem, and Norton's theorem
• Analysis of first-order electric circuits during transients
• Electric circuit analysis techniques used in different electrical engineering and electronics engineering fields, such as analog electronics, digital electronics, and power electronics
• Electric circuit analysis techniques needed for developing electronics with development boards such as the Arduino or Raspberry Pi

Certificate of Completion

You will be able to immediately print a certificate of completion after passing a multiple-choice quiz consisting of 25 questions. PDH credits are not awarded until the course is completed and quiz is passed.