PiSquareAccess Guidelines

Module1 Videos

1.0 Course Strategy (must watch, Check point-1)

1.1 Fundamentals of Networks

1.2 Types of electrical sources, Ohm's Law

1.3 Finding equivalent resistance

1.4 Star-delta, Substitution Theorem

1.5 KCL, KVL

1.6 Voltage, Current division

1.7 source transformation

1.8 Inductance, Capacitance Intro and Numericals  

Module2 Videos

2.1 Mesh Analysis

2.2 Node analysis

2.3 Tutorial_1

2.4 Tutorial_2, Duality

2.5 Recap, Practice Tests, Check point-2

Module3 Videos

3.1 AC Fundmentals, why sinusoid, avg, rms,peak form factor -Part1

3.2 AC Fundmentals, why sinusoid, avg, rms,peak form factor -Part2

3.2b Why sinusoid

3.3 AC Fundamentals Numericals

3.4 Concept of Phasor, leading and lagging calculations

3.4b Easy and best way to draw a 3-phase waveform

       Animations for Phasor Concept (works only with windows)

3.5 Phasor Diagram, Important Math Operations on Phasors

3.6 AC given to R, L, C, RL, RC, RLC-Part1

       Animations for Addition, Multiplication of Sinusoid (works only with windows)

3.7 AC given to R, L, C, RL, RC, RLC-Part2

      Why S= VI*

3.8 AC Steady State Analysis-Part1

3.9 AC Steady State Analysis-Part2

3.10 Resonance Intro, Series, Parallel RLC-Part1

       Animations for RLC series resonance (works only with windows) 

3.11 Resonance Intro, Series, Parallel RLC-Part2

3.12 Realistic RLC circuit resonane

3.13 Numericals on Realistic RLC circuit resonane

3.14 Complex Waveform Analysis

3.15a Why 3-phase

3.15b Interesting relations in three phase

3.15c Poly Phase systems

3.16 Concept of Current locus 

3.17 Recap of AC Circuits, Check point-3 

Module4 Videos

4.1 SPT (Super Position Theorem)

4.2 Dualilty, Thevenin and Norton's Theorems

4.3 MPTT (Maximum Power Transfer Theorem)

4.4 Milliman, Tellegen's Theorems

4.5 Reciprocity Theorem

Module5 Videos

5.1 Introduction to Magnetic Circuits

5.2 Coupled Circuits

5.3 Inductance Calculation of coupled circuits 

5.4 KVL equations of Coupled Circuits

5.5 Equivalent Impedance calculations of coupled circuits 

Module6 Videos

6.1 Two port intro, Z, Y, h, f Parameters

6.2 Z, Y, h, g Parameters numericals, interconnection-Part1

6.3 Z, Y, h, g Parameters numericals, interconnection-Part2

6.4 T,t Parameters-Part1

6.5 T,t Parameters-Part2

6.6 Summary of Two port Networks

Module7 Videos

7.1 Transients Introduction

7.1b Why and How Inductor does not allow sudden change in currents

7.2 Time Constant Calculation

7.3 Initial & Final Value Calculation

7.4 Complete Response of 1st order DC circuit

7.5 RC, RL circuit time constant Derivation

7.6 Special Cases in DC Transients

7.7 AC Transients, Summary of the module

Module8 Videos

8.1 Introduction to Graph Theory

8.2 Formation of Matrix Ac, Ar

8.3 Tree, Tie-set, Cut-set

 

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