Network Analysis
Created By
Prof. Tapas Kumar Bhattacharya via Swayam
- 0
- 12 weeks long
- Swayam
- English
Course Overview
The course begins with description with circuit elements , sources. Understanding of various interesting network theorems applied to solve linear, time invariant network problems efficiently in time and s-domain.Steady and transient solution of network problems with various sources including impulse source,δ(t). Representing a circuit in s-domain (Laplace domain).Two-port networks. Graph, tree of networks and use them to solve large network problems using matrices. INTENDED AUDIENCE : Electrical, Electronics & communication & InstrumentationPRE-REQUISITES : Basic Electrical TechnologySUPPORT INDUSTRY : Power utility services : CESC, State electricity boards, NTPC etc
Course Circullum
Week 1 : Introduction to Network, circuit elements & sources. KVL & KCL
Week 2 : Solution of linear differential equation with different excitation.
Week 3 : Deeper look into energy storing elements :inductor and capacitor.
Week 4 : Ideal and practical voltage & current sources.
Week 5 : Mesh and nodal analysis of networks.
Week 6 : Transforming voltage to current source and vicr-versa.Thevenin / Norton’s equivalent circuit.
Week 7 : Tellegen Theorem and its implication. Theory of reciprocity.Network function.
Week 8 : Two-port network: Z-parameters, Y-parameters, h-parameters & ABCD parameters.
Week 9 : Definition of graph & tree of a network. Cut-set matrix.
Week 10: [A],[B] & [Q] matrices : Relationship among them
Week 11: Tutorial -1
Week 12: Tutorial-2
Week 2 : Solution of linear differential equation with different excitation.
Week 3 : Deeper look into energy storing elements :inductor and capacitor.
Week 4 : Ideal and practical voltage & current sources.
Week 5 : Mesh and nodal analysis of networks.
Week 6 : Transforming voltage to current source and vicr-versa.Thevenin / Norton’s equivalent circuit.
Week 7 : Tellegen Theorem and its implication. Theory of reciprocity.Network function.
Week 8 : Two-port network: Z-parameters, Y-parameters, h-parameters & ABCD parameters.
Week 9 : Definition of graph & tree of a network. Cut-set matrix.
Week 10: [A],[B] & [Q] matrices : Relationship among them
Week 11: Tutorial -1
Week 12: Tutorial-2
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This Course Include:
Week 1 : Introduction to Network, circuit elements & sources. KVL & KCL
Week 2 : Solution of linear differential equation with different excitation.
Week 3 : Deeper look into energy storing elements :inductor and capacitor.
Week 4 : Ideal and practical voltage & current sources.
Week 5 : Mesh and nodal analysis of networks.
Week 6 : Transforming voltage to current source and vicr-versa.Thevenin / Norton’s equivalent circuit.
Week 7 : Tellegen Theorem and its implication. Theory of reciprocity.Network function.
Week 8 : Two-port network: Z-parameters, Y-parameters, h-parameters & ABCD parameters.
Week 9 : Definition of graph & tree of a network. Cut-set matrix.
Week 10: [A],[B] & [Q] matrices : Relationship among them
Week 11: Tutorial -1
Week 12: Tutorial-2
Week 2 : Solution of linear differential equation with different excitation.
Week 3 : Deeper look into energy storing elements :inductor and capacitor.
Week 4 : Ideal and practical voltage & current sources.
Week 5 : Mesh and nodal analysis of networks.
Week 6 : Transforming voltage to current source and vicr-versa.Thevenin / Norton’s equivalent circuit.
Week 7 : Tellegen Theorem and its implication. Theory of reciprocity.Network function.
Week 8 : Two-port network: Z-parameters, Y-parameters, h-parameters & ABCD parameters.
Week 9 : Definition of graph & tree of a network. Cut-set matrix.
Week 10: [A],[B] & [Q] matrices : Relationship among them
Week 11: Tutorial -1
Week 12: Tutorial-2
- Provider:Swayam
- Certificate:Paid Certificate Available
- Language:English
- Duration:12 weeks long
- Language CC: