Circuit Analysis & Network Theory-Base of Electrical Circuit
Circuit Analysis & Network Theory-Base of Electrical Circuit
Published 5/2024
Duration: 52h55m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 54.1 GB
Genre: eLearning | Language: English
Published 5/2024
Duration: 52h55m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 54.1 GB
Genre: eLearning | Language: English
Master DC and AC Circuit Analysis: Learn From 15+ Years of Expert Teaching for Electrical and Electronics Enthusiasts
What you'll learn
Fundamentals of Electrical & Electronics Network
Equivalent Resistance in Electrical Network
Dot Conversion in Inductive Network
Mesh Analysis of Electrical Network
Nodal Analysis of Electrical Network
Source Transformation
Thevenin's Theorem in Electrical Network
Norton's Theorem in Electrical Network
Millman's Theorem in Electrical Network
Maximum Power Transfer Theorem in Electrical Network
Super Position Theorem in Electrical Network
KVL, KCL, Nodal & Mesh Analysis of Circuit
Power in DC Sources
Reciprocity Theorem in Electrical Network
Transient Response with Time Analysis
Initial and Final Conditions in Electrical Network
Laplace Transform in Electrical Network
Two Port Network in Electrical Network
Graph Theory in Electrical Network
Phasor Diagram in Electrical Network
Power in AC Circuit
AC Analysis Parameters in Electrical Network
Requirements
No prior knowledge required
Description
Welcome to the comprehensive course on
Network Theory & Circuit Analysis
, where we delve deep into the fundamental principles and advanced techniques essential for understanding and analyzing electrical circuits. From basic network theory to intricate AC analysis parameters, this course offers a meticulous exploration of every aspect. Led by experienced instructors with over 15 years of teaching expertise, you'll gain a thorough understanding of circuit analysis concepts through practical examples and hands-on exercises.
After completing this course students can be able to solve basic to advanced circuit problems. This
Network Theory & Circuit Analysis
course comprehensively covers all the concepts of Circuit Theory subject for major branches like Electronics and Communication, Electrical, Instrumentation Engineering, Hardware Engineering, Circuit Designer and many others.
This course covers the following topics with ample supportive examples in great detail.
1 Introduction to Network Theory
2 Equivalent Resistance in Electrical Network
3 Dot Convention in Electrical Network
4 Mesh Analysis and Nodal Analysis
5 Source Transformation in Electrical Network
6 Thevenin Theorem in Electrical Network
7 Norton's Theorem in Electrical Network
8 Millman's Theorem in Electrical Network
9 Maximum Power Transfer Theorem in Electrical Network
10 Super Position Theorem in Electrical Network
11 KVL,KCL, Nodal and Mesh in Electrical Network
12 Power in DC Sources in Electrical Network
13 Reciprocity Theorem in Electrical Network
14 Transient Response with Time analysis
15 Initial and final conditions in Electrical Network
16 Laplace transform in Electrical Network
17 Two Port Network in Electrical Network
18 Graph Theory in Electrical Network
19 Phasor Diagram in Electrical Network
20 Power In AC Circuits in Electrical Network
21 AC Analysis Parameters in Electrical Network
Explore every facet of DC and AC circuit analysis with meticulous attention to detail.
Here are the detailed topics covered from every Chapter.
Certainly! Here's a restructured version of the course outline for better readability and organization:
1. Basics of Network Theory
- Introduction to Network Theory
- Network Synthesis and Applications
- Ideal and Practical Sources
- Classification of Networks
- Electric Charge, Current, EMF, and Potential
- Battery Selection for Circuits
- Power and Energy
- Kirchhoff's Laws
- Duality Principle
- Voltage and Current Divider Rules
- Basic Electrical Elements: Resistor, Inductor, and Capacitor
2. Equivalent Resistance in Electrical Network
- Delta to Star Conversion
- Star to Delta Conversion
- Equivalent Resistance Examples
- Symmetry and Equipotential Nodes in Equivalent Resistance
3. Dot Convention and Inductor in Electrical Network
- Electrical Parameters of Inductor
- Dot Convention and Polarity Identification
- Equivalent Inductor in Series and Parallel
- Examples using Dot Convention
4. Mesh and Nodal Analysis
- Mesh Analysis and Supermesh Analysis
- Nodal Analysis and Supernode Analysis
- Examples using Mesh and Nodal Analysis
5. Source Transformation & Network Manipulation Rules in Electrical Network
- Source Transformation
- Network Manipulation Rules
- Examples
6. Thevenin's Theorem in Electrical Network
- Thevenin's Theorem and Examples
- Thevenin's Theorem with Dependent Sources
- Thevenin's Theorem with Independent Sources
7. Norton's Theorem in Electrical Network
- Norton's Theorem and Examples
- Norton's Theorem with Dependent Sources
- Norton's Theorem with Independent Sources
8. Millman's Theorem in Electrical Network
- Millman's Theorem and Examples
9. Maximum Power Transfer Theorem in Electrical Network
- Maximum Power Transfer Theorem
- Examples
10. Superposition Theorem in Electrical Network
- Superposition Theorem and Examples
11. KVL, KCL Nodal and Mesh Analysis in Network Theory
- Examples of KVL, KCL, Nodal, and Mesh Analysis
12. Power in DC Sources
- Power Concepts and Examples
13. Reciprocity Theorem in Network Theory
- Reciprocity Theorem and Examples
14. Transient Response with Time Domain Analysis
- Transient Response of RL and RC Circuits
- Examples
15. Initial and Final Conditions in Transient Response
- Initial and Final Conditions in Circuits
- Examples
16. Laplace Transform in Network Theory
- Laplace Transform Properties and Formulas
- Transient Response and Equivalent Impedance
- Applications and Transfer Function
17. Two Port Network in in Network Theory
- Parameters and Properties
- Conversion and Examples
18. Graph Theory in Electrical Network
- Applications and Terminologies
- Incidence Matrix and Equations
- Examples
19. Phasor Diagram in Electrical Network
- Phasor Diagrams for Circuits
- Examples
20. Power in AC Circuits
- Power Concepts and Triangles
- Examples
21. AC Analysis Parameters in Network Theory
- Resonance, Bandwidth, and Quality Factor
- Examples
So, Get ready to embark on a transformative journey into the heart of Electrical and Electronics engineering
Thank You…
Who this course is for:
Students (Engineering, Diploma, Science)
Circuits Enthusiasts
Professionals in Electrical/Electronics Industries
Hardware Engineers wanting to know Circuit Operations
Renewable Energy Professionals
Hobbyist interested in how electronics circuit work
More Info