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ELECTRIC CIRCUIT THEORY
LESSON PLAN
Subject Code: 11TE 202 (4-0-0-4) Faculty: Dr. HLS No. of Hours: 52
Class Chapter Title/
Reference Literature Portions to be Covered
% Portions Covered
Reference Chapter
Cumulative
1-12
(12hrs)
UNIT 1 Analysis using Kirchoff’s laws:
Source transformations, Node and mesh analysis, concepts of „super node‟ and „super mesh‟, DC and AC networks excited by linearly dependent sources, concept of Duality.
19 19
13-22
(10hrs)
UNIT 2 Network Theorems:
Linearity and superposition, Thevenin’s theorem, Norton’s theorem, maximum power transfer, reciprocity theorem (for DC and AC excitations).
19 38
23-32
(10hrs)
UNIT 3 Transient behavior and initial conditions: Series and parallel resonance:
Evaluation of initial and final conditions in RL, RC and RLC circuits for DC and AC excitations, Series and parallel resonance circuits.
19 57
Class Chapter Title/
Reference Literature Portions to be Covered
% Portions Covered
Reference Chapter
Cumulative
33-42
(10hrs)
UNIT 4 Applications of Laplace transform
Review of Laplace transforms and theorems, initial and final value theorems, inverse Laplace transform, Heaviside‟s expansion, Transforms of other signal waveforms, Circuit analysis in s-domain.
19 76
43-52
(12hrs)
UNIT 5 Elements of realizability theory: Synthesis of one port networks with two kinds of elements:
Causality and stability, Hurwitz polynomial, positive real functions, elementary synthesis procedures. Properties of LC immittance functions, RC driving point impedances, RL impedances and RC admittances. Synthesis of LC driving point immittances, RC impedances, RL admittances, RLC functions.
24 100
Portions: Test I – Unit 1 & 2, Quiz – Unit 3 Test II – Unit 4 & 5 Reference Books:
1. “Network Analysis,” M.E Van Valkenburg, PHI, 3rd edition 2. “Engineering Circuit Analysis” W.H. Hayt, J.E. Kemmerly, S.M. Durbin, TMH, 7th edition 3. “Network Analysis and Synthesis,” Franklin F Kuo, Wiley India, 2nd edition 4. “Introduction to Modern Network Synthesis,” M.E Van Valkenburg, PHI, 3rd edition
11TE208: ELECTRIC CIRCUIT ANALYSIS LAB (0-0-1-1.5) Experiments List 1. Introduction to equipments 2. Superposition theorem 3. Thevenin’s theorem and Norton’s theorem 4. Maximum power transfer theorem by varying the load impedances 5. Star-Delta conversions 6. Frequency response of RC, RL, RLC circuits 7. Parallel and series resonance 8. Design of lowpass, highpass and bandpass filters 9. Transient response of RC circuits 10. Transient response of RL circuits 11. Synthesis of a given network
