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The course introduces the linear circuits (comprising resistors, capacitors and inductors) excited by sinusoidal sources. Alternating Current Power Analysis and Poly-phase circuits are introduced next. The concept of complex frequency, Laplace Transforms and its application to linear circuits and finding transfer function are covered in the later part. This file main points are: Electrical, Network, Analysis, Ac, Power, Two-Port, Magnetically, Coupled, Mutual, Inductance, Sinusoidal, Input
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****Prerequisites:** BS122 Calculus-I, EE-109 Linear Circuit Analysis Credit Hour: 3+
Instructor:
Office: Room A-224, 1st Floor, Faculty Block
Contact Hours: BEE 2 (A) 11:00 to 11:50 ( Wed ) and 15:00 to 16:00 ( Thu )
BEE 2 (B) 10:00 to 10:50 ( Wed ) and 11:00 to 11:50 ( Thu )
This is the second course in two part sequence of Electrical Circuit Analysis stream. The course requires basic concepts and knowledge related to circuit analysis and theorems taught in the first course EE109 titled Linear Circuit Analysis.
The course introduces the linear circuits (comprising resistors, capacitors and inductors) excited by sinusoidal sources. Alternating Current Power Analysis and Poly-phase circuits are introduced next. The concept of complex frequency, Laplace Transforms and its application to linear circuits and finding transfer function are covered in the later part. This is followed by learning about frequency response and phase response using Bode plots. Next part of the course introduces the student to magnetically coupled circuits and their analysis; and last part covers Two-Port network theory. Major topics covered durin the course are listed below:
AC Circuit Analysis : Steady state response of passive circuits comprising Resistor, Capacitor and Inductor to sinusoidal excitation, frequency response, s eries and parallel resonance in AC circuit, filters, Q-Factor, bandwidth, selectivity etc. will also be introduced and discussed.
AC Power and Poly Phase Circuits : AC Power calculations for single phase and poly- phase systems, Wye-Delta connections and power measurements are covered.
Two-Port Network: Characterization of linear time-invariant two-ports networks by six sets of parameters and the relationship among parameter sets, and interconnection of two-port network will be discussed.
Magnetically Coupled Circuits: Mutual inductance, linear and ideal transformers are covered.
Engineering Circuit Analysis (Seventh Edition); by Hayt Jr (late), Jack Kemmerly (late) and Steven Durbin
Fundamentals of Electric Circuits; by Charles K Alexander and Matthew N.O. Sadiku
Sinusoidal Input and Steady State Analysis
Introduction to Sinusoids and Phasors Phasor Relationships for R, L and C Phasor diagrams Impedance and Admittance Applicability of Nodal and Mesh Analysis and Circuit Analysis Theorem
AC Power circuit Analysis
Instantaneous and Average Power Effective values of current and voltage Apparent Power and Power Factor Complex Power and Power Factor Correction
Three-Phase Systems
Single-Phase Three-Wire Systems Balanced Y-Y, ∆-∆, Y- ∆ and ∆-Y Connection Power Measurement in Three Phase System
Frequency Response
Transfer Function Bode Diagrams Resonance and Quality Factor Parallel and Series Resonance Passive Filters
Two Port Networks
Admittance Parameters Impedance Parameters Hybrid Parameters Transmission Parameters
Magnetically Coupled Circuits
Mutual Inductance and Energy consideration Linear and Ideal Transformers
Quizzes : 10 % Assignments/ : 05 % One Hour Test (02) : 30 % Labs : 10 % Final Exam : 45 %
Total : 100 %
These are not fixed Weightages and may be changed by the instructor as required.