Network Circuit Theory

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About Course

Network Circuit Theory

Section-1

Basic Circuit concept,  KCL and KVL analysis, Nodal & mesh analysis, Supermesh and Supernode analysis, magnetically coupled circuits. Dot convention, coupling coefficient, tuned circuits,

Section-2

Network Theorems: Thevenin’s & Norton’s, Superpositions, Reciprocity, Compensation, Substitution, Maximum power transfer, and Millman’s theorem, Tellegen’s theorem, problems with dependent & independent sources.

Section-3

Transient analysis: Transients in RL, RC&RLC Circuits, initial& final conditions, time constants. Steady-state analysis

Section-4

Laplace transforms solution of integrodifferential equations, transform of waveform synthesized with step ramp, Gate and sinusoidal functions, Initial & final value theorem, Network Theorems in the transform domain.

Section-5

Two-port parameters: Z, Y, ABCD, Hybrid parameters, their inverse & image parameters, the relationship between parameters, Interconnection of two ports networks, Reciprocity, and Symmetry in all parameters.

Section-6

Network Graph theory: Concept of Network graph, Tree, Tree branch & link, Incidence matrix, cut set and tie set matrices, dual networks

Section-7

Network Synthesis: Hurwitz Polynomial, Properties of a positive real function, necessary and sufficient conditions, basic synthesis procedure, synthesis of L-C, R-L, and R-C driving point functions.

Who this Network Circuit Theory course is for:

  1. Electronics students
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What Will You Learn?

  • The students will learn how to analyze any given electrical network and how to synthesize an electrical network from a given impedance/admittance function

Course Content

Network Theory

  • Introduction to Network Theory
    00:00
  • Electric Charge
    00:00
  • Law of Conservation of Charge
    00:00
  • Electric Current
    00:00
  • Conventional Current vs. Electron Current
    00:00
  • Is Current a Scalar or a Vector Quantity?
    00:00
  • Electric Potential Difference (Voltage)
    00:00
  • Electric Power
    00:00
  • Electric Power (Solved Problem)
    00:00
  • Circuit Elements (Resistor)
    00:00
  • Ohm’s Law
    00:00
  • The Concept of Short Circuit
    00:00
  • The Concept of Open Circuit
    00:00
  • Circuit Elements (Inductor)
    00:00
  • Linear and Non-Linear Inductors
    00:00
  • Energy Stored in an Inductor
    00:00
  • Inductor (Important Points)
    00:00
  • Circuit Elements (Capacitor)
    00:00
  • Energy Stored in a Capacitor
    00:00
  • Capacitor (Important Points)
    00:00
  • Dependent and Independent Sources
    00:00
  • Ideal and Practical Voltage Sources
    00:00
  • Ideal and Practical Current Sources
    00:00
  • Voltage Source (Tips & Tricks)
    00:00
  • Current Source (Tips & Tricks)
    00:00
  • Current & Voltage Source (Important Points)
    00:00
  • Node, Path, Loop and Branch
    00:00
  • Kirchhoff’s Current Law (KCL)
    00:00
  • Kirchhoff’s Voltage Law (KVL)
    00:00
  • KCL and KVL (Solved Problem)
    00:00
  • More Insight into Kirchhoff’s Voltage Law (KVL)
    00:00
  • Mesh Analysis
    00:00
  • Mesh Analysis (Solved Problem 1)
    00:00
  • Mesh Analysis (Solved Problem 2)
    00:00
  • Mesh Analysis with Current Source
    00:00
  • Supermesh Analysis
    00:00
  • Supermesh Analysis (Solved Problem)
    00:00
  • Nodal Analysis
    00:00
  • Nodal Analysis (Solved Problem 1)
    00:00
  • Nodal Analysis with Voltage Source
    00:00
  • Nodal Analysis (Solved Problem 2)
    00:00
  • Supernode Analysis
    00:00
  • Supernode Analysis (Solved Problem)
    00:00
  • Series & Parallel Combination of Resistors
    00:00
  • Series & Parallel Combination of Capacitors
    00:00
  • Series & Parallel Combination of Inductors
    00:00
  • Voltage Divider Rule
    00:00
  • Current Divider Rule
    00:00
  • Equivalent Resistance (Solved Problem 1)
    00:00
  • Equivalent Resistance (Solved Problem 2)
    00:00
  • Equivalent Resistance (Solved Problem 3)
    00:00
  • Calculation of Equivalent Resistance Using Symmetry
    00:00
  • Equivalent Resistance (Solved Problem 4)
    00:00
  • Equivalent Resistance of a Cube (Between the Space Diagonal)
    00:00
  • Equivalent Resistance of a Cube (Between the Vertices of an Edge)
    00:00
  • Balanced Bridge
    00:00
  • Balanced Bridge (With Impedances)
    00:00
  • Balanced Bridge (Solved Problem)
    00:00
  • Equivalent Resistance (Solved Problem 7)
    00:00
  • Equivalent Resistance (Solved Problem 8)
    00:00
  • Delta to Wye (Star) Conversion
    00:00
  • Wye (Star) to Delta Conversion
    00:00
  • Delta to Wye & Wye to Delta Conversion (for Capacitors)
    00:00
  • Equivalent Capacitance (Solved Problem 1)
    00:00
  • Equivalent Capacitance (Solved Problem 2)
    00:00
  • Equivalent Capacitance (Solved Problem 3)
    00:00
  • Equivalent Capacitance (Solved Problem 4)
    00:00
  • Active and Passive Elements
    00:00
  • Bidirectional and Unidirectional Elements
    00:00
  • Lumped and Distributed Elements
    00:00
  • Linear and Nonlinear Elements
    00:00
  • Basics of Network Theory (Solved Problem 1)
    00:00
  • Basics of Network Theory (Solved Problem 2)
    00:00
  • Basics of Network Theory (Solved Problem 3)
    00:00
  • Basics of Network Theory (Solved Problem 4)
    00:00
  • Basics of Network Theory (Solved Problem 5)
    00:00
  • Basics of Network Theory (Solved Problem 6)
    00:00
  • Basics of Network Theory (Solved Problem 7) | Problem on Bulbs
    00:00
  • Basics of Network Theory (Solved Problem 8)
    00:00
  • Basics of Network Theory (Solved Problem 9)
    00:00
  • Basics of Network Theory (Solved Problem 10)
    00:00
  • Basics of Network Theory (Solved Problem 11)
    00:00
  • Basics of Network Theory (Solved Problem 12)
    00:00
  • Basics of Network Theory (Solved Problem 13)
    00:00
  • Basics of Network Theory (Solved Problem 14)
    00:00
  • Basics of Network Theory (Solved Problem 15)
    00:00
  • Basics of Network Theory (Solved Problem 16)
    00:00
  • Basics of Network Theory (Solved Problem 17)
    00:00
  • Basics of Network Theory (Solved Problem 18)
    00:00
  • Basics of Network Theory (Solved Problem 19)
    00:00
  • Practice Sheet-1 | Network Theory Basics | Network Theory
    00:00
  • Introduction to Two−Port Networks
    00:00
  • Z−Parameters (or) Impedance Parameters
    00:00
  • Z−Parameters (Solved Problem 1)
    00:00
  • Z−Parameters (Solved Problem 2)
    00:00
  • Y−Parameters (or) Admittance Parameters
    00:00
  • Y−Parameters to Z−Parameters Conversion
    00:00
  • Z−Parameters to Y−Parameters Conversion
    00:00
  • Y−Parameters (Solved Problem 1)
    00:00
  • Y−Parameters (Solved Problem 2)
    00:00
  • h−Parameters (or) Hybrid Parameters
    00:00
  • h−Parameters to Z−Parameters Conversion (and vice versa)
    00:00
  • h−Parameters to Y−Parameters Conversion (and vice versa)
    00:00
  • h−Parameters (Solved Problem)
    00:00
  • g−Parameters (or) Inverse Hybrid Parameters
    00:00
  • Z−Parameters to g−Parameters Conversion (and vice versa)
    00:00
  • ABCD−Parameters (or) Transmission Parameters
    00:00
  • ABCD−Parameters to Z−Parameters Conversion (and vice versa)
    00:00
  • ABCD−Parameters (Solved Problem)
    00:00
  • Concept of Symmetry in Two−Port Networks
    00:00
  • Condition for Symmetry in Two−Port Networks
    00:00
  • Condition for Reciprocity in Two−Port Networks (Part 1)
    00:00
  • Condition for Reciprocity in Two−Port Networks (Part 2)
    00:00
  • Series−Series Interconnection of Two−Port Networks
    00:00
  • Parallel−Parallel Interconnection of Two−Port Networks
    00:00
  • Series−Parallel Interconnection of Two−Port Networks
    00:00
  • Parallel−Series Interconnection of Two−Port Networks
    00:00
  • Cascade Interconnection of Two−Port Networks
    00:00
  • Two−Port Network (Important Shortcuts)
    00:00
  • Bartlett’s Bisection Theorem
    00:00
  • Two−Port Networks (Solved Problem 1)
    00:00
  • Two−Port Networks (Solved Problem 2)
    00:00
  • Two−Port Networks (Solved Problem 3)
    00:00
  • Two−Port Networks (Solved Problem 4)
    00:00
  • Two−Port Networks (Solved Problem 5)
    00:00
  • Two−Port Networks (Solved Problem 6)
    00:00
  • Open Circuit & Short Circuit Impedances (In Terms of ABCD-Parameters)
    00:00
  • Two−Port Networks (Solved Problem 7)
    00:00
  • Two−Port Networks (Solved Problem 8)
    00:00
  • ABCD−Parameters of an Ideal Transformer
    00:00
  • ABCD−Parameters of Gyrator
    00:00
  • Practice Sheet-2 | Two-Port Networks | Network Theory
    00:00
  • Sinusoidal Steady-State Analysis (Introduction)
    00:00
  • Sinusoids
    00:00
  • Sinusoids (Solved Problems)
    00:00
  • Phasors
    00:00
  • Phasors (Solved Problem 1)
    00:00
  • Phasors (Solved Problem 2)
    00:00
  • Phasors (Solved Problem 3)
    00:00
  • Phasor Relationship for Resistor
    00:00
  • Phasor Relationship for Inductor
    00:00
  • Phasor Relationship for Capacitor
    00:00
  • Instantaneous Power in AC Circuits
    00:00
  • Average Power in AC Circuits
    00:00
  • Average Power in AC Circuits (Solved Problem 1)
    00:00
  • Average Power in AC Circuits (Solved Problem 2)
    00:00
  • Root Mean Square (RMS) Value
    00:00
  • RMS Value (Solved Problem)
    00:00
  • Apparent Power & Power Factor
    00:00
  • Power Factor (Solved Problem)
    00:00
  • Complex Power & Reactive Power
    00:00
  • Complex Power (Solved Problem)
    00:00
  • Power Triangle
    00:00
  • Power Triangle (Solved Problem)
    00:00
  • Phasor Diagram of Series RL Circuit
    00:00
  • Phasor Diagram of Series RC Circuit
    00:00
  • Phasor Diagram of Series RLC Circuit
    00:00
  • Phasor Diagram of Parallel RC Circuit
    00:00
  • Phasor Diagram of Parallel RL Circuit
    00:00
  • Phasor Diagram of Parallel RLC Circuit
    00:00
  • Sinusoidal Steady-State (Solved Question 1)
    00:00
  • Sinusoidal Steady-State (Solved Question 2)
    00:00
  • Sinusoidal Steady-State (Solved Question 3)
    00:00
  • Sinusoidal Steady-State (Solved Question 4)
    00:00
  • Sinusoidal Steady-State (Solved Question 5)
    00:00
  • RMS & Average Values of Standard Waveforms
    00:00
  • Sinusoidal Steady-State (Solved Question 6)
    00:00
  • Introduction to Network Theorems
    00:00
  • Superposition Theorem
    00:00
  • Superposition Theorem with Dependent Sources
    00:00
  • Superposition Theorem (Problem 2)
    00:00
  • Superposition Theorem (Problem 3)
    00:00
  • Superposition Theorem (Problem 4)
    00:00
  • Thevenin’s Theorem
    00:00
  • Thevenin’s Theorem (Problem 1)
    00:00
  • Thevenin’s Theorem with Dependent Sources
    00:00
  • Thevenin’s Theorem (Problem 3)
    00:00
  • Source Transformation
    00:00
  • Source Transformation (Problem 1)
    00:00
  • Source Transformation (Problem 2)
    00:00
  • Norton’s Theorem
    00:00
  • Norton’s Theorem with Dependent Source
    00:00
  • Norton’s Theorem (Problem 2)
    00:00
  • Norton’s Theorem (Problem 3)
    00:00
  • Reciprocity Theorem
    00:00
  • Reciprocity Theorem (Problem 1)
    00:00
  • Reciprocity Theorem (Problem 2)
    00:00
  • Millman’s Theorem
    00:00
  • Millman’s Theorem (Solved Problem)
    00:00
  • Compensation Theorem
    00:00
  • Substitution Theorem
    00:00
  • Tellegen’s Theorem
    00:00
  • Maximum Power Transfer Theorem
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 1)
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 2)
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 3)
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 4)
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 5)
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 6)
    00:00
  • Maximum Power Transfer Theorem for AC Circuits
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 7)
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 8)
    00:00
  • Maximum Power Transfer Theorem (Solved Problem 9)
    00:00

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