Linear Circuit Analysis: Time Domain, Phasor, and Laplace Transform ApproachesThe combined three volumes of these texts cover traditional linear circuit analysis topics - both concepts and computation - including the use of available software for problem solution where necessary. The text balances emphasis on concepts and calculation so students learn the basic principles and properties that govern circuits behaviour, while they gain a firm understanding of how to solve computational techniques they will face in the world of professional engineers. |
Contents
INTRODUCTION AND BASIC CONCEPTS | 1 |
Source Transformations | 3 |
Phasor Representatives of Sinusoidal | 5 |
Copyright | |
59 other sections not shown
Other editions - View all
Linear Circuit Analysis, Volume I: A Time Domain and Phasor Approach Raymond A. DeCarlo,Pen-Min Lin No preview available - 1995 |
Common terms and phrases
amp circuit amplifier applied battery branch capacitance capacitor capacitor voltage chapter charge circuit analysis circuit element circuit model circuit of figure circuit shown compute connected Consider the circuit constant controlled source current source Determine device electric electronic energy equivalent circuit equivalent resistance example Find frequency function Gaussian surface ideal op amp independent current source independent sources independent voltage source inductor input terminals Laplace transform linear circuit load loop analysis loop currents loop equations matrix mesh method nodal analysis nodal equations node voltages Ohm's law op amp output voltage parallel phasor power absorbed power delivered problem R₁ R₂ RC circuit reference node relationship resistive circuit resistor response second-order shown in figure sinusoidal SOLUTION Step supernode superposition switch theorem Thévenin equivalent V₁ V₂ vc(t voltage and current voltage division voltage drop voltage source Vout waveform Zener diode zero ΚΩ