- 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 course deals with basic concept of electrical circuits.
- This is the basic subject for all electrical and electronic circuits subject.
- To understand Kirchhoff’s current and voltage Laws problems.
- To perform Mesh and Nodal analysis.
Course Curriculum
- Introduction
- Introduction
- Introduction -1
- Difference between Circuit Theory and Field Theory
- Basics of Network Elements
- Resistance and Resistivity
- Ohm’s Law and Inductance
- Ohm’s Law & Inductance – 2
- Capacitance
- Types of Network Elements
- Types Of Network Elements – 2
- Active Elements
- Ideal & Practical sources
- Ideal and practical sources – 2
- Ohm’s Law
- Basic problems
- DC Circuits
- Problems on Series,Parallel circuits and source transformation
- Star and Delta Circuits
- MESH AND NODAL ANALYSIS
- NODAL ANALYSIS
- Introduction
- Introduction
- Complex signals representations
- Complex signals representations – 01
- Sinusoidal Signal Representation
- Sinusoidal Signal Representation -01
- Sinusoidal Signal Representation -02
- Square Waveform Representation
- Triangular Waveform Representation
- Average and RMS values from AC circuits
- Form Factor and Peak Factor
- Average and RMS values of sinusoidal signal
- Average and RMS values of sinusoidal signal – 01
- Average and RMS values of Other signals
- Problems on AVG and RMS
- Voltage and Current relations in passive elements
- Series RLC circuits
- Parallel RLC Circuits
- RESONANCE
- Introduction
- Introduction -1
- Series Resonance Circuit
- Series Resonance Circuit -1
- Impedance and frequency relation
- Quality Factor and Bandwidth of RLC circuit
- Power factor and frequency relation in series RLC circuit
- Problems on series resonance circuits
- Problems on series resonance circuits -1
- Problems on series resonance circuits -2
- Parallel Resonance circuit
- Problems on Resonance circuits
- LAPLACE TRANSFORM ANALYSIS CIRCUITS
- NETWORK THEOREMS ( SUPER POSITION THEOREM )
- Introduction – Superposition Theorems
- Super Position Theorem – Lecture-01
- Super Position Theorem – Lecture-02
- Super Position Theorem – Lecture-03
- Super Position Theorem – Lecture-04
- Super Position Theorem – Lecture-05
- Super Position Theorem – Lecture-06
- Super Position Theorem – Lecture-07
- Super Position Theorem – Lecture-09
- NETWORK THEOREMS ( THEVENIN 'S AND NORTAN'S)
- THEVENINS AND NORTON’S THEOREM INTRODUCTION
- PROBLEMS ON THEOREMS – 01
- PROBLEMS ON THEOREMS – 02
- PROBLEMS ON THEOREMS – 03
- THEVENIN’S THEOREM_Problem04
- THEVENIN’S THEOREM_Problem02
- THEVENIN’S THEOREM_Problem01
- THEVENIN’S THEOREM_Problem05
- Maximum Power Transfer theorem
- Maximum Power Transfer theorem -01
- Maximum Power Transfer theorem -03
- Maximum Power Transfer theorem -02
- MILLMAN’S THEOREM
- MILLMAN’S THEOREM -01
- DUALITY THEOREM
- TELLEGEN’S THEOREM_0
- TELLEGEN’S THEOREM
- RECIPROCITY THEOREM
- RECIPROCITY THEOREM-01
- RECIPROCITY THEOREM-02
- Assignmaent – 3
- Assignmaent – 4
- Assignmaent – 5
- Assignment – 3_Solutions
- Assignment – 4_Solutions
- Assignment – 5_Solutions
- Introduction
- Y (ADMITTANCE) PARAMETERS
- HYBRID(h) AND TRANSMISSION PARAMETERS
- h PARAMETERS & g- PARAMETERS
- Transmission Parameters
- Problems on Two Port Networks
- Problems on Two Port Networks -1
- Problems on Two Port Networks -2
- RELATION BETWEEN TWO PORT NETWORK PARAMETERS
- Problems on Two Port Networks-3
- Inter connecting Two port networks
- Parallel Connection of networks
- Cascade Connection of Networks
- Problems on Two Port Networks-4
- Problems on Two Port Networks-5
- Problems on Two Port Networks-6
- Problems on Two Port Networks-7
- TYPES OF NETWORKs
- Problems on Two Port Networks-8
- TRANSIENT ANALYSIS
- Introduction
- Transient and Steady state Conditions
- Time Constants of RC and RL circuits
- Initial and Final Conditions of passive elements
- Initial and Final Conditions of passive elements – 1
- Current through the inductor from RL circuit
- RC series Circuit excited by the DC source
- Problems_1
- Transfer Function of Networks
- Problems on Transient Circuits-1
- RL series circuit analysis using Laplace Transform
- Source free Transient circuits
- Problems on Transient Circuits
- RLC Series Circuit ( DC Excitation)
- RLC Series Circuit ( DC Excitation)-1
- RLC Series Circuit ( DC Excitation)-2
- RLC Series Circuit ( DC Excitation)-3
- AC Transient Analysis
- NETWORK TOPOLOGY (GRAPH THEORY)
- Magnetic Circuits
- Filters ( Passive )