What are you going to learn?
Content
Apply the knowledge of basic circuital laws and simplify the dc and ac networks using reduction techniques. Analyze the dc and ac circuits using mesh and nodal analysis and network simplification theorems. Analyze the series and parallel resonant circuits. Infer and evaluate transient response, steady state response of series, parallel and compound circuits. Develop Laplace transformed network for steady state and transient analysis. Analyze dc and ac circuits and time domain response using P-Spice.
Chapter 1. Introduction
Fundamental Variables
Voltage, Energy Sources
Power and Energy
Circuit Elements R, C ,L,
Energy Sources
Ohm's Law
Circuit Analysis and Design
Series and Parallel Resistances
Voltage and Current Division
Source Tranformations
Linearity and Superposition
Chapter 2. Resistive Circuits
Chapter 3. Basics of Graph Theory
Overview and Terminology
Node - Volatge Analysis
Mesh - Current Equations
Solutions of Simultaneous Equations
Thevenin Theorem
Norton Theorem
Chapter 4. Operational Amplifiers Circuits
Introduction
Ideal OpAm
Nodal Analysis of Circuits with OpAmps
Design Using OpAmps
Characteristics of Practical OpAmps
Design Examples
Chapter 5. Circuit Theorems
Introduction
Superposition
Thevenin Theorem
Norton Theorem
Maximum Power Tansfer
Design Example
Chapter 6. Storage Elements in Circuits
Capacitors
Inductors
Capacitors and Inductors Combinations
Mutual Inductance
Application Examples
Design Examples
Chapter 7. First and Second Order Transient Circuits
Capacitors
Inductors
Capacitors and Inductors Combinations
Mutual Inductance
Application Examples
Design Examples
Chapter 8. Operational Amplifier Design and Analysis
Introduction
Differential Equation for Circuits with Two Energy Storage Elements
Natural Response of the Unforced Parallel RLC Circuit
Natural Response of the Critically Damped Unforced Parallel RLC Circuit
Natural Response of the Underdamped Unforced Parallel RLC Circuit
Firced Response of the Parallel RLC
Complete Response of the RLC Circuit
State Variable Approach to Circuit Analysis
Rooys in the Complex Plane
Design Example: Auto Airbag Ignater
Chapter 9. AC Circuits
Introduction
Sinusoidal Sources
Phasors
Impedances
Seral and Parallel Impedances
Theveninn and Northon Theorems
Superposition
Phasor Dagrams
THe Complete Response
Design Example: An OpAmp Circuit
Bibliography
Irwin, J. D.,and R. M. Nelms Smith. Basic Engineering Circuit Analysis. 10th Ed.John Wiley &Sins, Inc., Danvers, USA, 2011.
Boylestad, R. L. Introductory Circuit Analysis. 13th Ed. Pearson. Essex, UK, 2016.
Floyd, T. L. Principles of Electric Circuits. 9th Ed. Pearson, Essex, UK, 2014
