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No.
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Chapter Name
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No. of Videos
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Duration |
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Chapter I:
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|
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1
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Introduction To Network Elements: Active Elements: Independent (Uncontrolled), Dependent ( Controlled), Ideal & Practical Sources. Passive Elements: Resistor, Inductor and Capacitor
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3
|
48 Mins |
|
2
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Source Transformation & Source Shifting: Concept of Equivalent Sources, Numericals on Equivalent Sources, Basic Sources Conversions, Numericals on Basic Sources Conversions
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4
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2 Hr 10 Mins |
|
3
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Mesh Analysis: Kirchoff's Voltage Law (KVL), Mesh Basis Equilibrium Equation in Matrix Form For a Network, Numericals on Mesh Analysis, Controlled Sources in Mesh Analysis, Numericals Based on Mutual Coupling in Mesh Analysis
|
8
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4 Hr 28 Mins |
|
4
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Nodal Analysis: Kirchoff's Current Law (KCL), Node Basis Equilibrium Equation in Matrix Form For a Network, Numericals on Node Analysis
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4
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1 Hr 25 Mins |
|
5
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Supermesh and Supernode: Numericals on Supermesh and Supernode
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2
|
26 Mins |
|
6
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Duality: Defination, Conditins for Duality, Construction of a Dual Network for the Given Network
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2
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24 Mins |
|
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Chapter II:
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1
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Network Theorems: Superposition, Thevenin’s, Norton’s and Maximum Power Transfer Theorems, Reciprocity Theorem Compensation Theorem, Millers Theorem and its dual, Tellegen’s Theorem as applied to ac circuits
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17
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6 Hr 07 Mins |
| |
Chapter III: |
|
|
| 1 |
Series Resonance: Defination, Graphical Representation, Resonant Frequency, Variation of Impedance, Current, Phase Angle and Volatge With Frequency, Phasor Diagram in Series RLC Circuit, Quality Factor, Bandwidth, Half Power Frequencies, Selectivity, Effect of Q on Bandwidth, Numericals Based On Series Resonance. Parallel Resonance: Defination, Graphical Representation, Variation of I, Z, Y, Resonant Frequency of Parallel RLC Circuit, General Parallel Circuit, Practical Parallel Circuit (Tank Circuit), Q-factor, Numericals Based On Parallel Resonance. Comparison: Comparison of Series Resonance & Parallel Resonance. |
15 |
3 Hr 22 Mins |
| |
Chapter IV: |
|
|
| 1 |
Filters: Defination of Filters, Classification of Filters, Design of Constant-K, or Prototype Low Pass Filter, High Pass Filter, Band Pass Filter, Band Stop Filter. Numericals Based on Designing of Various Filters, M Derived Low Pass & High Pass Filters. |
12 |
2 Hr 43 Mins |
| 2 |
Attenuators: Defination of Attenuators, Units of attenuation, Bartlett’s bisection theorem, lattice attenuator, symmetrical T, and bridged attenuator, asymmetrical L-section attenuator, Ladder attenuator. |
2 |
43 Mins |
| |
Chapter V: |
|
|
| 1 |
Initial and final condition : Initial and final conditions ,Effect of Switching on R,L& C Drawing Various Equivalent Circuits & Evaluation of Initial and Final conditions |
4 |
1 Hr 40 Mins |
|
2
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Laplace transform and Application: Laplace transform and properties, Basic Properties, Inverse Laplace Transform, Partial Fractions Expansion, Application of Laplace Transform in Circuit Analysis, Impedence & Admittance Transform of Circuit Elements (Circuit Elements in S-Domain). Numericals based on RC, RL and RLC Circuit to Various Inputs.
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7
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2 Hr 20 Mins |
|
3
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Waveform Synthesis: Shifting Theorem, Laplace Transform of Step, Ramp & Sinusoidal Functions, Laplace Transform of Shifted Functions, Synthesis of Given Waveform, Laplace Transform of Periodic Function.
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8
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2 Hr 07 Mins |
|
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Chapter VI:
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|
|
|
1
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Two Port Network & Parameters: Z, Y, ABCD, Inverse ABCD, H & G Parameters, Reciprocity and Symmetry Conditions in terms of Various Parameters, Expressing One Parameter into Other Parameter Numericals. Interconnection of Two Port Network & Numericals.
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22
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5 Hr 21 Mins |
|
2
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Netwrok Functions: Network Function of One Port and Two Port Networks, Numericals on Evaluation of Network Functions, Analysis of Ladder Type of Network and Numericals.
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11
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3 Hr 44 Mins |
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Total |
121
|
37 Hr 48 Mins |