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Advance Circuit Analysis Course
Last updated 4/2019
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 975.23 MB | Duration: 2h 7m
Al explain advance circuit analysis techniques
What you'll learn
This Course will Teach the Student Advance circuit Analysis Techniques.( i.e. Kirchhoff Laws. Super Position, Thevenin's Theorem, Norton Theorem
Requirements
The Student Should have a basic Understanding of Electronic basics including Ohms Law
Description
This Course Covers Kirchhoff's Circuit Laws and Network Theorems , Super Position, Thevenin and Norton Conversions. Al Gives a detailed explanation on each of these Circuit Analysis techniques.This course is Broken into two Sections. Section one is Kirchhoff's Circuit Laws and section two network theorems and how they are used to analysis a circuit. Each section is accompanied with problems that the student can preform to reinforce there learning experience.What are Network Theorems:Electric circuit theorems are always beneficial to help find voltage and currents in multi-loop circuits. These theorems use fundamental rules or formulas and basic equations of mathematics to analyze basic components of electrical or electronics parameters such as voltages, currents, resistance, and so onWhat is Kirchhoff's Circuit Laws :Kirchhoff's circuit laws are two equalities that deal with the current and potential difference (commonly known as voltage) in the lumped element model of electrical circuits. They were first described in 1845 by German physicist Gustav Kirchhoff. What is Super Position:The superposition theorem states that a circuit with multiple voltage and current sources is equal to the sum of simplified circuits using just one of the sources. A circuit composed of two voltage sources, for example, will be equal to the sum of two circuits, each one using one of the sources and having the other removed.What is Thevenin to Norton ConversionsSince Thevenin's and Norton's Theorems are two equally valid methods of reducing a complex network down to something simpler to analyze, there must be some way to convert a Thevenin equivalent circuit to a Norton equivalent circuit, and vice versa (just what you were dying to know, right?).
Overview
Section 1: Course Study Anoucement
Lecture 1 Al Explains the correct way to study for his Course(s)
Section 2: Kirchoffs Circuit Laws
Lecture 2 Al Explains Kirchhoff's Current and Voltage Law
Lecture 3 Al Explains Kirchhoff's Branch Current Method for finding Voltage Current
Lecture 4 Al Explains Kirchhoff's Node Voltage Theorem & Kirchhoff's Mesh Current Theorem
Lecture 5 Al Explains Kirchhoff's Node Voltage Analysis & Mesh Current Analysis
Section 3: Electronic Circuit Network Theorems
Lecture 6 Al Explains Superposition & Thevenin Network Theorems
Lecture 7 Al Explains Thevenin & Norton Network Theorems
Lecture 8 Thevenin & Norton Network Conversions, Y to Delta Network Conversions
Students that have basic understanding of Electronic circuits.
Screenshots
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