What you will learn in Linear Circuits 1: DC Analysis Course
Basic Electrical Concepts: Understand voltage, current, resistance, and power.
Ohm’s Law: Apply Ohm’s Law to analyze simple circuits.
Kirchhoff’s Laws: Use Kirchhoff’s Current Law (KCL) and Kirchhoff’s Voltage Law (KVL) for circuit analysis.
Series and Parallel Circuits: Analyze resistive circuits in series and parallel configurations.
Node Voltage and Mesh Current Methods: Apply these techniques to solve complex circuits.
Thevenin’s and Norton’s Theorems: Simplify circuits using these theorems.
Operational Amplifiers: Understand the behavior of op-amps in DC circuits.
Program Overview
Introduction to Electrical Circuits
⏳ 85 hours
Understand the basics of electrical circuits, Ohm’s Law, and Kirchhoff’s Laws.
Solve for current, voltage, and resistance in simple DC circuits.
Advanced Circuit Techniques
⏳ 85 hours
Learn to apply techniques like node voltage and mesh current analysis to more complex circuits.
Simplify circuits using Thevenin’s and Norton’s theorems.
Operational Amplifiers and DC Circuits
⏳ 85 hours
Understand the basics of operational amplifiers.
Apply operational amplifiers to solve practical problems in DC circuits.
Capstone Project
⏳ 85 hours
Apply all the techniques learned throughout the course in a final project that reinforces your understanding of DC circuits.
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Job Outlook
Proficiency in DC Circuit Analysis is valuable for roles such as Electrical Engineer, Circuit Designer, Embedded Systems Engineer, and Electronics Test Engineer.
Skills acquired in this course are applicable across various industries, including consumer electronics, automotive, telecommunications, and renewable energy sectors.
Completing this course can enhance your qualifications for positions that require in-depth knowledge of circuit analysis and electrical engineering principles.
Specification: Linear Circuits 1: DC Analysis
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