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Electrical circuits

Electrical circuits

Course Curriculum Total learning: 201 lessons Time: 10 weeks CoursesElectrical EngineeringElectrical circuits Introduction 15 Lecture1.1 Introduction Lecture1.2 Introduction -1 Lecture1.3 Difference between Circuit Theory and Field Theory Lecture1.4 Basics of Network Elements Lecture1.5 Resistance and Resistivity Lecture1.6 Ohm’s Law and …

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Andoor Srininvas

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All Courses, Electrical Engineering

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Course Curriculum

Total learning: 201 lessons Time: 10 weeks

Introduction 15

Lecture1.1
Introduction
Lecture1.2
Introduction -1
Lecture1.3
Difference between Circuit Theory and Field Theory
Lecture1.4
Basics of Network Elements
Lecture1.5
Resistance and Resistivity
Lecture1.6
Ohm’s Law and Inductance
Lecture1.7
Ohm’s Law & Inductance – 2
Lecture1.8
Capacitance
Lecture1.9
Types of Network Elements
Lecture1.10
Types Of Network Elements – 2
Lecture1.11
Active Elements
Lecture1.12
Ideal & Practical sources
Lecture1.13
Ideal and practical sources – 2
Lecture1.14
Ohm’s Law
Lecture1.15
Basic problems

DC Circuits 8

Lecture2.1
Series Circuits
Lecture2.2
Series Circuits – 1
Lecture2.3
Voltage Division Theorem
Lecture2.4
Parallel circuits & Current division theorem
Lecture2.5
Parallel circuits & Current division theorem -1
Lecture2.6
Kirchhoff’s Law ( KCL & KVL )
Lecture2.7
Kirchhoff’s Laws -1
Lecture2.8
Problems on Series and Parallel circuits

Problems on Series,Parallel circuits and source transformation 6

Lecture3.1
Problems on Series and Parallel circuits – 1
Lecture3.2
Problems on series and parallel circuits – 2.1
Lecture3.3
Problems on Series and Parallel circuits – 3
Lecture3.4
Circuit reduction
Lecture3.5
Source Transformation
Lecture3.6
Problems on Source transformation

Star and Delta Circuits 5

Lecture4.1
Introduction to Star & Delta circuits
Lecture4.2
Problems on Star & Delta Circuits
Lecture4.3
Bridge balancing condition
Lecture4.4
Problems on Star & Delta Circuits – 1
Lecture4.5
Problems on Star & Delta Circuits – 3

MESH AND NODAL ANALYSIS 9

Lecture5.1
Mesh Analysis Introduction
Lecture5.2
Basic problems on Mesh Analysis
Lecture5.3
Basic problems on Mesh Analysis – 2
Lecture5.4
Basic problems on Mesh Analysis – 3
Lecture5.5
Problems on Mesh Analysis – 1
Lecture5.6
Problems on Mesh Analysis – 2
Lecture5.7
Problems on Mesh Analysis – 3
Lecture5.8
Problems on Mesh Analysis – 4
Lecture5.9
Problems on Mesh Analysis – 5

NODAL ANALYSIS 6

Lecture6.1
Introduction to Nodal Analysis
Lecture6.2
Basic Problems on Nodal Analysis – 1
Lecture6.3
Problems on Nodal Analysis – 2
Lecture6.4
Problems on Nodal Analysis – 3
Lecture6.5
Problems on Nodal Analysis – 4
Lecture6.6
Assignment – 1

Introduction 14

Lecture7.1
Introduction
Lecture7.2
Complex signals representations
Lecture7.3
Complex signals representations – 01
Lecture7.4
Sinusoidal Signal Representation
Lecture7.5
Sinusoidal Signal Representation -01
Lecture7.6
Sinusoidal Signal Representation -02
Lecture7.7
Square Waveform Representation
Lecture7.8
Triangular Waveform Representation
Lecture7.9
Average and RMS values from AC circuits
Lecture7.10
Form Factor and Peak Factor
Lecture7.11
Average and RMS values of sinusoidal signal
Lecture7.12
Average and RMS values of sinusoidal signal – 01
Lecture7.13
Average and RMS values of Other signals
Lecture7.14
Problems on AVG and RMS

Voltage and Current relations in passive elements 5

Lecture8.1
Introduction
Lecture8.2
V and I relation in resistor
Lecture8.3
Power in pure resistor
Lecture8.4
AC Source across Pure Inductor
Lecture8.5
AC Source across Pure Capacitor

Series RLC circuits 8

Lecture9.1
V and I relations in R,L,C parameters
Lecture9.2
RL series Circuit
Lecture9.3
Power in AC circuits
Lecture9.4
RC series Circuit
Lecture9.5
RLC series Circuit
Lecture9.6
Problems on RLC series Circuit
Lecture9.7
Problems on RLC series Circuit -1
Lecture9.8
Assignment – 1

Parallel RLC Circuits 4

Lecture10.1
PARALLEL RL CIRCUIT
Lecture10.2
PARALLEL RC CIRCUIT
Lecture10.3
Parallel RLC Circuits
Lecture10.4
Problems on RLC circuits -03

RESONANCE 12

Lecture11.1
Introduction
Lecture11.2
Introduction -1
Lecture11.3
Series Resonance Circuit
Lecture11.4
Series Resonance Circuit -1
Lecture11.5
Impedance and frequency relation
Lecture11.6
Quality Factor and Bandwidth of RLC circuit
Lecture11.7
Power factor and frequency relation in series RLC circuit
Lecture11.8
Problems on series resonance circuits
Lecture11.9
Problems on series resonance circuits -1
Lecture11.10
Problems on series resonance circuits -2
Lecture11.11
Parallel Resonance circuit
Lecture11.12
Problems on Resonance circuits

LAPLACE TRANSFORM ANALYSIS CIRCUITS 7

Lecture12.1
LAPLACE TRANSFORM INTRODUCTION
Lecture12.2
Series RC Circuitsv
Lecture12.3
Series RC and RL Circuits
Lecture12.4
Problems on Filters
Lecture12.5
Second Order Systems -01
Lecture12.6
Step Response of RC Circuit
Lecture12.7
Responses of Second Order Systems

NETWORK THEOREMS ( SUPER POSITION THEOREM ) 9

Lecture13.1
Introduction – Superposition Theorems
Lecture13.2
Super Position Theorem – Lecture-01
Lecture13.3
Super Position Theorem – Lecture-02
Lecture13.4
Super Position Theorem – Lecture-03
Lecture13.5
Super Position Theorem – Lecture-04
Lecture13.6
Super Position Theorem – Lecture-05
Lecture13.7
Super Position Theorem – Lecture-06
Lecture13.8
Super Position Theorem – Lecture-07
Lecture13.9
Super Position Theorem – Lecture-09

NETWORK THEOREMS ( THEVENIN 'S AND NORTAN'S) 26

Lecture14.1
THEVENINS AND NORTON’S THEOREM INTRODUCTION
Lecture14.2
PROBLEMS ON THEOREMS – 01
Lecture14.3
PROBLEMS ON THEOREMS – 02
Lecture14.4
PROBLEMS ON THEOREMS – 03
Lecture14.5
THEVENIN’S THEOREM_Problem04
Lecture14.6
THEVENIN’S THEOREM_Problem02
Lecture14.7
THEVENIN’S THEOREM_Problem01
Lecture14.8
THEVENIN’S THEOREM_Problem05
Lecture14.9
Maximum Power Transfer theorem
Lecture14.10
Maximum Power Transfer theorem -01
Lecture14.11
Maximum Power Transfer theorem -03
Lecture14.12
Maximum Power Transfer theorem -02
Lecture14.13
MILLMAN’S THEOREM
Lecture14.14
MILLMAN’S THEOREM -01
Lecture14.15
DUALITY THEOREM
Lecture14.16
TELLEGEN’S THEOREM_0
Lecture14.17
TELLEGEN’S THEOREM
Lecture14.18
RECIPROCITY THEOREM
Lecture14.19
RECIPROCITY THEOREM-01
Lecture14.20
RECIPROCITY THEOREM-02
Lecture14.21
Assignmaent – 3
Lecture14.22
Assignmaent – 4
Lecture14.23
Assignmaent – 5
Lecture14.24
Assignment – 3_Solutions
Lecture14.25
Assignment – 4_Solutions
Lecture14.26
Assignment – 5_Solutions

Introduction 9

Lecture15.1
Introduction
Lecture15.2
TWO PORT NETWORKS
Lecture15.3
TWO PORT NETWORKS-INTRO
Lecture15.4
Introduction to Two Port Networks
Lecture15.5
Z – Parameters
Lecture15.6
PROBLEMS ON Z-PARAMETERS
Lecture15.7
PROBLEMS ON Z-PARAMETERS – 1
Lecture15.8
PROBLEMS ON Z-PARAMETERS – 2
Lecture15.9
PROBLEMS ON Z-PARAMETERS – 3

Y (ADMITTANCE) PARAMETERS 4

Lecture16.1
Y – PARAMETERS
Lecture16.2
Y – PARAMETERS OF DELTA NETWORK
Lecture16.3
PROBLEMS ON Y-PARAMETERS
Lecture16.4
RELATION BETWEEN Z & Y PARAMETERS

HYBRID(h) AND TRANSMISSION PARAMETERS 16

Lecture17.1
h PARAMETERS & g- PARAMETERS
Lecture17.2
Transmission Parameters
Lecture17.3
Problems on Two Port Networks
Lecture17.4
Problems on Two Port Networks -1
Lecture17.5
Problems on Two Port Networks -2
Lecture17.6
RELATION BETWEEN TWO PORT NETWORK PARAMETERS
Lecture17.7
Problems on Two Port Networks-3
Lecture17.8
Inter connecting Two port networks
Lecture17.9
Parallel Connection of networks
Lecture17.10
Cascade Connection of Networks
Lecture17.11
Problems on Two Port Networks-4
Lecture17.12
Problems on Two Port Networks-5
Lecture17.13
Problems on Two Port Networks-6
Lecture17.14
Problems on Two Port Networks-7
Lecture17.15
TYPES OF NETWORKs
Lecture17.16
Problems on Two Port Networks-8

TRANSIENT ANALYSIS 18

Lecture18.1
Introduction
Lecture18.2
Transient and Steady state Conditions
Lecture18.3
Time Constants of RC and RL circuits
Lecture18.4
Initial and Final Conditions of passive elements
Lecture18.5
Initial and Final Conditions of passive elements – 1
Lecture18.6
Current through the inductor from RL circuit
Lecture18.7
RC series Circuit excited by the DC source
Lecture18.8
Problems_1
Lecture18.9
Transfer Function of Networks
Lecture18.10
Problems on Transient Circuits-1
Lecture18.11
RL series circuit analysis using Laplace Transform
Lecture18.12
Source free Transient circuits
Lecture18.13
Problems on Transient Circuits
Lecture18.14
RLC Series Circuit ( DC Excitation)
Lecture18.15
RLC Series Circuit ( DC Excitation)-1
Lecture18.16
RLC Series Circuit ( DC Excitation)-2
Lecture18.17
RLC Series Circuit ( DC Excitation)-3
Lecture18.18
AC Transient Analysis

NETWORK TOPOLOGY (GRAPH THEORY) 10

Lecture19.1
Introduction to Network Topology(Graph Theory)
Lecture19.2
Introduction to Network Topology(Graph Theory)-1
Lecture19.3
Incident Matrix
Lecture19.4
TREE OF NETWORK GRAPH
Lecture19.5
Tie set Matrix
Lecture19.6
Tie set Matrix -1
Lecture19.7
KCL,KVL from Tie Set Matrix
Lecture19.8
Cut Set of Network Graph
Lecture19.9
Fundamental Cut-set
Lecture19.10
Problem on Cut-set and Tie-set

Magnetic Circuits 6

Lecture20.1
Introduction
Lecture20.2
Self and Mutual Inductance
Lecture20.3
Co-efficient of Coupling
Lecture20.4
series and parallel coupling
Lecture20.5
Problems on Coupling circuits
Lecture20.6
Magnetically Coupling

Filters ( Passive ) 4

Lecture21.1
Types of Filters
Lecture21.2
Low Pass Filter
Lecture21.3
High Pass Filter
Lecture21.4
BPF and BSF

ABOUT INSTRUCTOR

Andoor Srininvas

Hello My dear Students. My name is Srinivas Andoor. I am GATE ECE senior faculty. I am teaching since twelve years. My courses will start always from Basics and discuss up to advance level. For every concept, proper examples discussed along with real time applications. Whoever aiming for higher jobs or competitive exams, this course will help for their preparation.

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