Contents To Be Covered
Circuit concepts, RLC parameters, voltage and current sources, independent and dependent
sources, source transformation, voltage-current relations for passive elements, kirchoff’s
laws , network reduction techniques, nodal analysis, mesh analysis, super nodal and super
UNIT-II RMS, average ,peak and form factor of sinusoidal wave form, steady state analysis of R,L,C
in series and parallel combinations with sinusoidal excitation,concept of reactance ,
impedance, admittance and susceptance, real,reactive and apparent powers and complex
UNIT-III Locus diagrams for all series and paralle combinations of RLC parameters, resonance of
series and parallel circuits, concept of bandwidth and q factor.
Magnetic circuit, faradays laws of electro-magnetic induction, concept of self and
mutual induction, dot convention, co-efficient of coupling, composite magnetic circuit,
analysis of series and parallel magnetic circuits.
UNITDefinitions, graph, tree, co-tree, cutest, tie-set, matrices for planar networks, loop and nodal
methods for analysis of networks with dependent and independent voltage and current
sources, duality and dual networks
UNIT-V Network theorems with DC and ACnexcitations,tellegen’s,compensation,thevenin’s,
nortan’s, milliman’s, reciprocity and super-position theorems.