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Circuit analysis demystified [a self-teaching guide ; an ieal companion to a standard course of instruction ; covers simple to complex circuitry ; explains differential equations, the Laplace transform, and Fourier series ; loaded with solved examples and

معرفی کتاب «Circuit analysis demystified [a self-teaching guide ; an ieal companion to a standard course of instruction ; covers simple to complex circuitry ; explains differential equations, the Laplace transform, and Fourier series ; loaded with solved examples and» نوشتهٔ David McMahon، منتشرشده توسط نشر McGraw-Hill Osborne Media در سال 2008. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.

Here's the sure cure for CIRCUIT PARALYSIS! Need to learn circuit analysis but experiencing some resistance in your brain waves? No stress! Circuit Analysis Demystified will give you the jolt you need to understand this complex subject—without getting your circuits crossed. In the first part of the book, you'll learn the fundamentals such as voltage and current theorems, Thevenin and Norton's theorems, op amp circuits, capacitance and inductance, and phasor analysis of circuits. Then you'll move on to more advanced topics including Laplace transforms, three-phase circuits, filters, Bode plots, and characterization of circuit stability. Featuring end-of-chapter quizzes and a final exam, this book will have you in a steady state when it comes to circuit analysis in no time at all. This fast and easy guide offers: Numerous figures to illustrate key concepts Sample equations with worked solutions Coverage of Kirchhoff's laws, the superposition theorem, Millman's theorem, and delta-wye transformations Quizzes at the end of each chapter to reinforce learning A time-saving approach to performing better on an exam or at work Simple enough for a beginner, but challenging enough for an advanced student, Circuit Analysis Demystified will transform you into a master of this essential engineering subject. Cover Page 1 Demystified Series 3 Title Page 4 ISBN 0071488987 5 ABOUT THE AUTHOR 7 Contents 9 Preface 15 Acknowledgments 17 Chapter 1 An Introduction to Circuit Analysis 19 What Is Circuit Analysis? 20 Electric Current 20 Current Arrows 27 Voltage 29 Time Varying Voltage and Voltage Sources 31 Dependent Voltage Sources 34 Current Sources 34 Open and Short Circuits 36 Power 37 Conservation of Energy 40 Summary 41 Quiz 41 Chapter 2 Kirchhoff's Laws and Resistance 43 Branches, Nodes, and Loops 43 Kirchhoff's Current Law 44 Kirchhoff's Voltage Law 46 The Resistor 49 Power in a Resistor 51 Circuit Analysis with Resistors 52 Root Mean Square (RMS) Values 55 Voltage and Current Dividers 59 More Examples 64 Summary 71 Quiz 72 Chapter 3 Thevenin’s and Norton’s Theorems 76 Thevenin’s Theorem 77 Step One: Disconnect the Outside Network 78 Step Two: Set Independent Sources to Zero 79 Step Three: Measure the Resistance at Terminals A and B 79 Series and Parallel Circuits 79 Back to Thevenin’s Theorem 85 Thevenin’s Theorem Using the Karni Method 95 Norton’s Theorem and Norton Equivalent Circuits 100 Summary 102 Quiz 102 Chapter 4 Network Theorems 104 Superposition 104 Millman’s Theorem 111 Quiz 114 Chapter 5 Delta - Wye Transformations and Bridge Circuits 115 Delta - Wye Transformations 115 Bridge Circuits 119 Quiz 120 Chapter 6 Capacitance and Inductance 121 The Capacitor 121 Capacitors in Parallel or Series 122 Voltage - Current Relations in a Capacitor 124 Voltage in Terms of Current 125 Power and Energy in the Capacitor 127 Time Constants, Zero-Input Response, and First-Order RC Circuits 128 The Inductor 132 Inductors in Series and in Parallel 133 Energy in an Inductor 133 Current in an Inductor 133 Zero-Input Analysis of First-Order RL Circuits 134 Mutual Inductance 135 Zero-Input Response in an RL Circuit 138 Second-Order Circuits 143 Summary 148 Quiz 149 Chapter 7 The Phasor Transform 150 Basics on Complex Numbers 150 Polar Representation 152 Sinusoids and Complex Numbers 152 Sinusoidal Sources 155 Leading and Lagging 156 Effective or RMS Values 157 Dynamic Elements and Sinusoidal Sources 157 The Phasor Transform 158 Properties of the Phasor Transform 160 Circuit Analysis Using Phasors 161 Impedance 165 Summary 168 Quiz 169 Chapter 8 Frequency Response 170 Natural Frequencies 170 The Frequency Response of a Circuit 174 Filters 182 Summary 187 Quiz 188 Chapter 9 Operational Amplifiers 190 The Noninverting Amplifier 191 Inverting Amplifier 193 The Summing Amplifier 194 Summary 196 Quiz 196 Chapter 10 Sinusoidal Steady-State Power Calculations 197 Maximum Power Transfer 197 Instantaneous Power 201 Average and Reactive Power 203 The RMS Value and Power Calculations 205 Complex Power 212 Summary 213 Quiz 214 Chapter 11 Transformers 215 The Dot Convention 216 Summary 218 Quiz 218 Chapter 12 Three-Phase Circuits 220 Balanced Sequences 221 Y Loads 222 Summary 223 Quiz 223 Chapter 13 Network Analysis Using Laplace Transforms 224 The Laplace Transform 225 Exponential Order 228 The Inverse Laplace Transform 229 Analyzing Circuits Using Laplace Transforms 232 Convolution 236 Zero-State Response and the Network Function 239 Poles and Zeros 242 Summary 243 Quiz 244 Chapter 14 Circuit Stability 246 Poles and Stability 249 Zero-Input Response Stability 254 Bounded Input-Bounded Output Stability 255 Summary 257 Quiz 258 Chapter 15 Bode Plots and Butterworth Filters 259 Asymptotic Behavior of Functions 260 Creating Bode Plots 262 Bode Plot Examples 263 Filters 270 Butterworth Filters 272 Quiz 277 Final Exam 278 Quiz and Exam Solutions 288 References 299 Index 301 A 301 B 301 C 301 D 302 E 302 F 303 G 303 H 303 I 304 J 304 K 304 L 304 M 304 N 304 O 304 P 305 Q 305 R 305 S 305 T 306 U 306 V 306 W 306 Y 306 Z 306

here's The Sure Cure For Circuit Paralysis!

need To Learn Circuit Analysis But Experiencing Some Resistance In Your Brain Waves? No Stress! circuit Analysis Demystified Will Give You The Jolt You Need To Understand This Complex Subject—without Getting Your Circuits Crossed.

in The First Part Of The Book, You'll Learn The Fundamentals Such As Voltage And Current Theorems, Thevenin And Norton's Theorems, Op Amp Circuits, Capacitance And Inductance, And Phasor Analysis Of Circuits. Then You'll Move On To More Advanced Topics Including Laplace Transforms, Three-phase Circuits, Filters, Bode Plots, And Characterization Of Circuit Stability. Featuring End-of-chapter Quizzes And A Final Exam, This Book Will Have You In A Steady State When It Comes To Circuit Analysis In No Time At All.

this Fast And Easy Guide Offers:

  • numerous Figures To Illustrate Key Concepts
  • sample Equations With Worked Solutions
  • coverage Of Kirchhoff's Laws, The Superposition Theorem, Millman's Theorem, And Delta-wye Transformations

  • quizzes At The End Of Each Chapter To Reinforce Learning
  • a Time-saving Approach To Performing Better On An Exam Or At Work

simple Enough For A Beginner, But Challenging Enough For An Advanced Student, circuit Analysis Demystified Will Transform You Into A Master Of This Essential Engineering Subject.

Publisher's Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Here's the sure cure for CIRCUIT PARALYSIS! Need to learn circuit analysis but experiencing some resistance in your brain waves? No stress! Circuit Analysis Demystified will give you the jolt you need to understand this complex subject--without getting your circuits crossed. In the first part of the book, you'll learn the fundamentals such as voltage and current theorems, Thevenin and Norton's theorems, op amp circuits, capacitance and inductance, and phasor analysis of circuits. Then you'll move on to more advanced topics including Laplace transforms, three-phase circuits, filters, Bode plots, and characterization of circuit stability. Featuring end-of-chapter quizzes and a final exam, this book will have you in a steady state when it comes to circuit analysis in no time at all. This fast and easy guide Simple enough for a beginner, but challenging enough for an advanced student, Circuit Analysis Demystified will transform you into a master of this essential engineering subject. Circuit Analysis Demystified КНИГИ ;АППАРАТУРА Название: Circuit Analysis Demystified Автор: David McMahon Издательство: McGraw-HillГод: 2007 Страниц: 288 Формат:PDF Размер: 1.4 Mб ISBN: 0071488987 Язык: английский Need to learn circuit analysis but experiencing some resistance in your brain waves? No stress! Circuit Analysis Demystified will give you the jolt you need to understand this complex subject--without getting your circuits crossed. In the first part of the book, you'll learn the fundamentals such as voltage and current theorems, Thevenin and Norton's theorems, op amp circuits, capacitance and inductance, and phasor analysis of circuits. Then you'll move on to more advanced topics including Laplace transforms, three-phase circuits, filters, Bode plots, and characterization of circuit stability. Featuring end-of-chapter quizzes and a final exam, this book will have you in a steady state when it comes to circuit analysis in no time at all. extabit.comsharingmatrix.com.com 0 1 2 3 4 5 "David McMahon has worked for several years as a physicist and researcher at a renowned national laboratory. He has an educational background that includes advanced degrees in both math and physics. He is also the author of Quantum Mechanics Demystified, Relativity Demystified, Signals and Systems Demystified, and Linear Algebra Demystified."-- Provided by publisher A practical guide to circuit analysis that covers Kirchhoff's Laws and resistance, theorems, Delta-Wye transformations and bridge circuits, capacitance and inductance, transformers, frequency response, operational amplifiers, power calculations, three-phase circuits, network analysis, circuit stability, and other topics
دانلود کتاب Circuit analysis demystified [a self-teaching guide ; an ieal companion to a standard course of instruction ; covers simple to complex circuitry ; explains differential equations, the Laplace transform, and Fourier series ; loaded with solved examples and