LINEAR NETWORKS - TRANSIENT ANALYSIS

LINEAR NETWORKS - TRANSIENT ANALYSIS

EE 231 No. of hrs/week = 02 + 03

No. of credits = 03

Signals and Waveforms: Periodic and non-periodic waveforms, odd and even components, step, ramp, impulse and doublet signals, equations of waveforms and their derivatives. - 5 hrs.

Initial conditions: Evaluation of initial conditions in RL, RC, RLC series and parallel and multi-loop circuits. - 3 hrs.

Laplace Transform Analysis: Properties of Laplace Transforms, Laplace Transforms of periodic, non-periodic and standard signals, inverse Laplace Transforms, initial and final value theorems, convolution integral theorem, analysis of networks by Laplace Transform method – step, ramp, impulse, exponential and sinusoidal responses of RL, RC, RLC series and parallel and multi-loop circuits. - 15 hrs.

Frequency Response: Complex frequency, transfer function, poles and zeros, evaluation of residues at the poles from pole-zero diagram. - 3 hrs.

References:

Van Valkenberg, “Network Analysis”, 3^rd Edition, PHI, 1990.
F. F. Kuo, “Network Analysis and Synthesis”, 2^nd Edition, Wiley, 1999.
Clayton R. Paul, “Analysis of Linear Circuits”, MGH, 1989.

LINEAR NETWORKS LABORATORY

Steady State Analysis: (Using hardware components)

Verification of Thevenin’s theorem.
Verification of Superposition and Reciprocity theorems.
Verification of Maximum Power Transfer theorem.
Measurement of Self-inductance by V-A-W and 3 Voltmeter methods.
Series and parallel resonance.
Measurement of power in three phase, star and delta connected loads.

Transient Analysis: (using PSPICE)

Familiarization with PSPICE.
DC steady state analysis.
DC transient response of RL, RC and RLC circuits.
AC transient response of RL, RC and RLC circuits.

Reference:

Rashid M. H., “SPICE for circuits and electronics using PSPICE”, PHI, 1996.