Module 1
Circuit Analysis: Concept of Linearity, Unilateral and Bilateral Systems – Passive and Active networks – Vector and Phasor – Sources of Energy – Independent and Dependent voltage and current Sources – Standard input signals – Source transformations – Mesh and Node Analysis – Driving point Impedance and Transfer Impedance – Driving point Admittance and Transfer Admittance.
Circuit Analysis: Concept of Linearity, Unilateral and Bilateral Systems – Passive and Active networks – Vector and Phasor – Sources of Energy – Independent and Dependent voltage and current Sources – Standard input signals – Source transformations – Mesh and Node Analysis – Driving point Impedance and Transfer Impedance – Driving point Admittance and Transfer Admittance.
Module 2
Coupled Circuits: Self-inductance and Mutual inductance – Coefficient of coupling – dot convention – Ideal Transformer – Analysis of multi-winding coupled circuits – Analysis of single tuned and double tuned coupled circuits.
Coupled Circuits: Self-inductance and Mutual inductance – Coefficient of coupling – dot convention – Ideal Transformer – Analysis of multi-winding coupled circuits – Analysis of single tuned and double tuned coupled circuits.
Module 3
Network Theorems: Star-Delta transformations – Super position, Reciprocity, Substitution, Compensation, Thevinin, Norton, Millman, Tellegen and Maximum power transfer theorems.
Network Theorems: Star-Delta transformations – Super position, Reciprocity, Substitution, Compensation, Thevinin, Norton, Millman, Tellegen and Maximum power transfer theorems.
Module 4
Three Phase Circuits: Generation of three phase voltages – Phase sequence – Line and Phase quantities – Analysis of unbalanced loads – Neutral shift – Symmetrical components – Analysis of unbalanced system – power in terms of symmetrical components.
Three Phase Circuits: Generation of three phase voltages – Phase sequence – Line and Phase quantities – Analysis of unbalanced loads – Neutral shift – Symmetrical components – Analysis of unbalanced system – power in terms of symmetrical components.
Module 5
Graph theory: Introduction – Linear graph of a network – Tie-set and cut-set schedule – incidence matrix – Analysis of resistive network using cut-set and tie-set – Dual of a network.
Introduction to MATLAB and pSPICE – Simulation/Analysis of simple Electric Circuits using MATLAB and pSPICE.
Graph theory: Introduction – Linear graph of a network – Tie-set and cut-set schedule – incidence matrix – Analysis of resistive network using cut-set and tie-set – Dual of a network.
Introduction to MATLAB and pSPICE – Simulation/Analysis of simple Electric Circuits using MATLAB and pSPICE.
References
Network Analysis: M.E Van Valkanburg
Circuits and Networks-Analysis and Synthesis: A. Sudhakar, S.P Shyam Mohan
Networks and Systems: D. Roy Choudhary, New Age Intl’.
Theory and Problems in Circuit Analysis: T.S.K.V Iyer, TMH
Electric Circuits: Edminister J, Schaum’s Outline series
Engineering Circuit Analysis: W.H Hayt and J.E. Kemmerly – Mc Graw Hill.
Electric ciruit theory: Rajeswaran – Pearson Education
Circuits and Networks-Analysis and Synthesis: A. Sudhakar, S.P Shyam Mohan
Networks and Systems: D. Roy Choudhary, New Age Intl’.
Theory and Problems in Circuit Analysis: T.S.K.V Iyer, TMH
Electric Circuits: Edminister J, Schaum’s Outline series
Engineering Circuit Analysis: W.H Hayt and J.E. Kemmerly – Mc Graw Hill.
Electric ciruit theory: Rajeswaran – Pearson Education
mgu university b.tech electrical S3 syllabus