The objective of this course work is to make students understand the various fundamentals of Network Analysis and Synthesis which would definitely form the basis in designing any circuit. The fundamentals taught in this course work would enable the students to understand the working of the components and the circuit as a whole. The course work site here deals with the various details about assignments, class test schedules and syllabus for various exams of the subject. The site also facilitates the students with handouts of the subject and the topics covered in the lecture sessions.
At the end of the course, a student will be able to –
- understand the basic laws, theorems and the methods of analysing electrical circuits.
- analyse the properties of coupled circuits and usage of network graph to solve circuits.
- obtain the transient and steady-state response of electrical circuits.
- understand two port network and network synthesis.
Course Syllabus:
Basic Circuit Fundamentals
Basic definitions, Nature of sources, Phasor technique, Kirchhoff’s laws, Mesh and Nodal Analysis, Super-mesh and Super-Node Analysis, Source transformation, Duality.
Coupled Circuits
Self and Mutual inductance, Coefficient of coupling, Dot convention, Tuned circuit, Single tuned circuits.
Network Theorems
Superposition, Thevenin’s, Norton’s, Maximum power transfer, Tellegen’s, Millman’s and Reciprocity theorem in DC and AC circuits.
Network Topology
Basic definitions, Formation of incidence, f-tie set and f-cut set matrix, relationship between matrices, Network equilibrium equations.
Time Domain Analysis
Initial conditions, Procedure for evaluating initial conditions, Transient analysis of DC & AC circuits.
Frequency Domain Analysis
Laplace transform of standard signals, Shifting theorem, initial and final value theorem, Solution of circuit equations by Laplace transform, Evaluation of circuit response for various signals.
Tow Port Networks
Classification of networks, Two port parameters, Condition of Reciprocity and Symmetricity, Interrelations and Interconnections of two port networks.
Network Functions
Calculation of network functions, Poles and Zeros of network functions and their restriction, time domain behaviour from pole – zero plot.Hurwitz Polynomial, Properties of positive real function, necessary and sufficient conditions, basic synthesis procedure, synthesis of L-C, R-L and R-C driving point functions.
References:
- M E Van Valkenburg, Textbook of Network Analysis, Prentice Hall India.
- A. Chakrabarti , Circuit Theory- Analysis and Synthesis, Dhanpat Rai & Co.
- U. A. Patel, Textbook of Network Analysis and Synthesis, Mahajan Publishing House.
- Akhilesh A. Nimje, Electrical Circuit Analysis and Synthesis, New Age International Publishers
- William D. Stanley, Textbook of Network Analysis with Applications, Pearson Education (I) Ltd.
- Franklin F. Kuo, Textbook of Network Analysis and Synthesis, Wiley India.
- Charles A. Desoer and Ernest S. Kuh, Textbook of Basic Circuit Theory, Tata McGrawhill.
- Lawrance P. Huelman, Textbook of Basic Circuit Theory, Prentice Hall of India.
Control System Engineering 