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The Ultimate Electrical Circuits ( Module - 3) - Panter - 15.07.2022
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The Ultimate Electrical Circuits ( Module - 3)
Last updated 3/2021
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 14.59 GB | Duration: 11h 7m
Network Theory , Circuit Theory , Engineering Circuit Analysis
What you'll learn
Be able to solve two port network problems
Be able to solve Transient analysis OF networks
Be able to solve steady state analysis of circuits
To find the analysis of networks using network graphs(topology)
Be able to solve magnetic circuits
Requirements
ELECTRICAL CIRCUITS ( MODULE-1), Basics from networks
Description
________________________________________________________________***** Visit my website for better offers in Instructor profile *****|--------------------------------------------------------------------------------------------------------|To develop problem solving skills and understanding of circuit theory through the application of techniques.To understand how voltage , current and power from given circuit. This subject deals with Two Port Network analysis, Network Topology, Transient Analysis and Magnetic circuits.Two Port Network analysis deals with Z-parameters, Y ,Hybrid and Transmission parameters. This topic is used to find internal analysis of amplifiers, filters and Transformer function.Transient analysis deals both DC and AC circuits.This subject is used all electrical and electronic circuits subject to sole the circuits.To understand all network functions and applications.To design Filters and tuned circuits.Predict the behavior of any electrical and magnetic circuits. 2. Formulate and solve complex AC, Dc circuits. 3. Identify the type of electrical machine used for that particular application. 4. Realize the requirement of transformers in transmission and distribution of electric power and other applications. 5. Function on multi-disciplinary teams.After successfully studying this course, students will: Be able to systematically obtain the equations that characterize the performance of an electric circuit as well as solving both single phase and three-phase circuits in sinusoidal steady state. Acknowledge the principles of operation and the main features of electric machines and their applications. Acquire skills in using electrical measuring devices. Be aware of electrical hazards and able to implement basic actions to avoid unsafe work conditions.
Overview
Section 1: Introduction
Lecture 1 Introduction
Lecture 2 TWO PORT NETWORKS
Lecture 3 TWO PORT NETWORKS-INTRO
Lecture 4 Introduction to Two Port Networks
Lecture 5 Z - Parameters
Lecture 6 PROBLEMS ON Z-PARAMETERS
Lecture 7 PROBLEMS ON Z-PARAMETERS - 1
Lecture 8 PROBLEMS ON Z-PARAMETERS - 2
Lecture 9 PROBLEMS ON Z-PARAMETERS - 3
Section 2: Y (ADMITTANCE) PARAMETERS
Lecture 10 Y - PARAMETERS
Lecture 11 Y - PARAMETERS OF DELTA NETWORK
Lecture 12 PROBLEMS ON Y-PARAMETERS
Lecture 13 RELATION BETWEEN Z & Y PARAMETERS
Section 3: HYBRID(h) AND TRANSMISSION PARAMETERS
Lecture 14 h PARAMETERS & g- PARAMETERS
Lecture 15 Transmission Parameters
Lecture 16 Problems on Two Port Networks
Lecture 17 Problems on Two Port Networks - 1
Lecture 18 Problems on Two Port Networks - 2
Lecture 19 RELATION BETWEEN TWO PORT NETWORK PARAMETERS
Lecture 20 Problems on Two Port Networks-3
Lecture 21 Inter connecting Two port networks
Lecture 22 Parallel Connection of networks
Lecture 23 Cascade Connection of Networks
Lecture 24 Problems on Two Port Networks-4
Lecture 25 Problems on Two Port Networks-5
Lecture 26 Problems on Two Port Networks-6
Lecture 27 Problems on Two Port Networks-7
Lecture 28 TYPES OF NETWORKs
Lecture 29 Problems on Two Port Networks-8
Section 4: TRANSIENT ANALYSIS
Lecture 30 Introduction
Lecture 31 Transient and Steady state Conditions
Lecture 32 Time Constants of RC and RL circuits
Lecture 33 Initial and Final Conditions of passive elements
Lecture 34 Initial and Final Conditions of passive elements - 1
Lecture 35 Current through the inductor from RL circuit
Lecture 36 RC series Circuit excited by the DC source
Lecture 37 Problems_1
Lecture 38 Transfer Function of Networks
Lecture 39 Problems on Transient Circuits-1
Lecture 40 RL series circuit analysis using Laplace Transform
Lecture 41 Source free Transient circuits
Lecture 42 Problems on Transient Circuits
Lecture 43 RLC Series Circuit ( DC Excitation)
Lecture 44 RLC Series Circuit ( DC Excitation)-1
Lecture 45 RLC Series Circuit ( DC Excitation)-2
Lecture 46 RLC Series Circuit ( DC Excitation)-3
Lecture 47 AC Transient Analysis
Section 5: NETWORK TOPOLOGY (GRAPH THEORY)NETWORK TOPOLOGY (GRAPH THEORY)
Lecture 48 Introduction to Network Topology(Graph Theory)
Lecture 49 Introduction to Network Topology(Graph Theory)-1
Lecture 50 Incident Matrix
Lecture 51 TREE OF NETWORK GRAPH
Lecture 52 Tie set Matrix
Lecture 53 Tie set Matrix - 1
Lecture 54 KCL,KVL from Tie Set Matrix
Lecture 55 Cut Set of Network Graph
Lecture 56 Fundamental Cut-set
Lecture 57 Problem on Cut-set and Tie-set
Section 6: Magnetic Circuits
Lecture 58 Introduction
Lecture 59 Self and Mutual Inductance
Lecture 60 Co-efficient of Coupling
Lecture 61 series and parallel coupling
Lecture 62 Problems on Coupling circuits
Lecture 63 Magnetically Coupling
Section 7: Filters ( Passive )
Lecture 64 Types of Filters
Lecture 65 Low Pass Filter
Lecture 66 High Pass Filter
Lecture 67 BPF and BSF
GATE EC,EE,IN students,Beginners for this subject,For all competitive exams,Academic students
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