Description: Circuit Theory is the theory of accomplishing work by means of routing matter through a loop. It is also mathematical analysis of conditions and relationships in an electric circuit.
Curriculum
- 1 Section
- 51 Lessons
- 10 Weeks
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- Circuit Theory51
- 2.1Lecture 1: Review of Signals and Systems – I
- 2.2Lecture 2: Review of Signals and Systems – II
- 2.3Lecture 3: Network Equations; Initial and Final Conditions
- 2.4Lecture 4: Problem Session 1
- 2.5Lecture 5: Step, Impulse and Complete Responses
- 2.6Lecture 6: nd Order Circuits:Magnetically Coupled Circuits
- 2.7Lecture 7: Transformer Transform Domain Analysis
- 2.8Lecture 8: Problem Session 2 : Step,Impulse
- 2.9Lecture 9: Network Theorems and Network Functions
- 2.10Lecture 10: Network Functions (Contd.)
- 2.11Lecture 11: Amplitude and Phase of Network Functions
- 2.12Lecture 12: Problem Session 3 : Network Theorems Transform
- 2.13Lecture 13: Poles, Zeros and Network Response
- 2.14Lecture 14: Single Tuned Circuits – I
- 2.15Lecture 15: Single Tuned Circuits – II
- 2.16Lecture 16: Double Tuned Circuits – I
- 2.17Lecture 17: Double Tuned Circuits – II
- 2.18Lecture 18: Problem Session 4 : Network Functions, Analysis
- 2.19Lecture 19: Double Tuned Circuits – III
- 2.20Lecture 20: Concept of Delay and Introduction
- 2.21Lecture 21: Two-port Networks
- 2.22Lecture 22: Problem Session 5
- 2.23Lecture 23: Minor – 1
- 2.24Lecture 24: The Hybrid & Transmission Parameters of 2 ports
- 2.25Lecture 25: Problem Session 6: Two – port networks
- 2.26Lecture 26: Two – port Network parameters
- 2.27Lecture 27: Two-port Interconnections
- 2.28Lecture 28: Interconnection of Two-port Networks (Contd.)
- 2.29Lecture 29: Problem Session 7 : Two-port Networks
- 2.30Lecture 30: Scattering Matrix
- 2.31Lecture 31: Scattering Parameters of a Two-port
- 2.32Lecture 32: Problem Session 8 : Two- port Parameters
- 2.33Lecture 33: Solutions of Minor – 2 Problems
- 2.34Lecture 34: Insertion Loss
- 2.35Lecture 35: Example of Insertion Loss and Elements
- 2.36Lecture 36: Elements of Realizability Theory (Contd.)
- 2.37Lecture 37: Positive Real Functions
- 2.38Lecture 38: Testing of Positive Real Functions
- 2.39Lecture 39: Problem Session 9
- 2.40Lecture 40: More on PRF
- 2.41Lecture 41: LC Driving Point Functions
- 2.42Lecture 42: LC Driving Point Synthesis (Contd.)
- 2.43Lecture 43: RC and RL Driving Point Synthesis
- 2.44Lecture 44: Problem Session 10 : LC Driving Point Synthesis
- 2.45Lecture 45: RC & RL One-port Synthesis (Contd.)
- 2.46Lecture 46: Elementary RLC One-port Synthesis
- 2.47Lecture 47: Properties and Synthesis of Transfer Parameters
- 2.48Lecture 48: Resistance Terminated L C Ladder
- 2.49Lecture 49: Resistance Terminated LC Ladder ( Contd.)
- 2.50Lecture 50: Problem session 11: Two-port Synthesis
- 2.51Lecture 51: Network Transmission Criteria
