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100   $a20030528d2003      uy         0
101 0 $aeng
135   $aurcn|||||||||
181   $ctxt
182   $cc
183   $acr
200 10$aCircuit analysis I $ewith MATLAB applications /$fSteven T. Karris
210   $aFremont, Calif. $cOrchard Publications$dc2003
215   $avi, 592 p. $cill
300   $aTitle from title screen.
300   $aIncludes index.
311   $a0-9709511-2-4 
327   $aCover - Front -- Front matter -- Preface -- Table of Contents -- Chapter 1 Concepts and Definitions -- Chapter 2 Analysis of Simple Circuits -- Chapter 3 Nodal and Mesh Equations - Circuit Theorems -- Chapter 4 Introduction to Operational Amplifiers -- Chapter 5 Inductance and  Capacitance -- Chapter 6 Sinusoidal Circuit Analysis -- Chapter 7 Phasor Circuit Analysis -- Chapter 8 Average and RMS Values, Complex Power, and Instruments -- Chapter 9 Natural Response -- Chapter 10 Forced and Total Response in RL and RC Circuits -- Appendix A Introduction to  MATLABŪ -- Appendix B  A  Review of Complex Numbers -- Appendix C Matrices and  Determinants -- Chapter 01 Basic Concepts and Definitions -- 1.14 Answers to Exercises -- 1.13 Exercises -- 1.1 The Coulomb -- 1.2 Electric Current and Ampere -- 1.3 Two Terminal Devices -- 1.4 Voltage (Potential Difference) -- 1.5 Power and Energy -- 1.6 Active and Passive Devices -- 1.7 Circuits and Networks -- 1.8 Active and Passive Networks -- 1.9 Necessary Conditions for Current Flow -- 1.10 International System of Units -- 1.11 Sources of Energy -- 1.12 Summary -- Chapter 02 Analysis of Simple Circuits -- 2.1 Conventions -- 2.2 Ohm's Law -- 2.3 Power Absorbed by a Resistor -- 2.4 Energy Dissipated in a Resistor -- 2.5 Nodes, Branches, Loops and Meshes -- 2.6 Kirchhoff's Current Law (KCL) -- 2.7 Kirchhoff's Voltage Law (KVL) -- 2.8 Single Mesh Circuit Analysis -- 2.9 Single Node-Pair Circuit Analysis -- 2.10 Voltage and Current Source Combinations -- 2.11 Resistance and Conductance Combinations -- 2.12 Voltage Division Expressions -- 2.13 Current Division Expressions -- 2.14 Standards for Electrical and Electronic Devices -- 2.15 Resistor Color Code -- 2.16 Power Rating of Resistors -- 2.17 Temperature Coefficient of Resistance -- 2.18 Ampere Capacity of Wires -- 2.19 Current Ratings for Electronic Equipment.
327   $a2.20 Copper Conductor Sizes for Interior Wiring -- 2.21 Summary -- 2.22 Exercises -- 2.23 Answers to Exercises -- Chapter 03 Nodal and Mesh Equationbs - Circuit Theorems -- 3.1 Nodal, Mesh, and Loop Equations -- 3.2 Analysis with Nodal Equations -- 3.3 Analysis with Mesh or Loop Equations -- 3.4 Transformation between Voltage and Current Sources -- 3.5 Thevenin's Theorem -- 3.6 Norton's Theorem -- 3.7 Maximum Power Transfer Theorem -- 3.8 Linearity -- 3.9 Superposition Principle -- 3.10 Circuits with Non-Linear Devices -- 3.11 Efficiency -- 3.12 Regulation -- 3.13 Summary -- 3.14 Exercises -- 3.15 Answers to Exercises -- Chapter 04 Introduction to Operational Amplifiers -- 4.1 Signals -- 4.2 Amplifiers -- 4.3 Decibels -- 4.4 Bandwidth and Frequency Response -- 4.5 The Operational Amplifier -- 4.6 An Overview of the Op Amp -- 4.7 Active Filters -- 4.8 Analysis of Op Amp Circuits -- 4.9 Input and Output Resistance -- 4.10 Summary -- 4.11 Exercises -- 4.12 Answers to Exercises -- Chapter 05 Inductance and Capacitance -- 5.1 Energy Storage Devices -- 5.2 Inductance -- 5.3 Power and Energy in an Inductor -- 5.4 Combinations of Series and Parallel Inductors -- 5.5 Capacitance -- 5.6 Power and Energy in a Capacitor -- 5.7 Capacitance Combinations -- 5.8 Nodal and Mesh Equations in General Terms -- 5.9 Summary -- 5.10 Exercises -- 5.11 Answers to Exercises -- Chapter 06 Sinusoidal Circuit Analysis -- 6.1 Excitation Functions -- 6.2 Circuit Response to Sinusoidal Inputs -- 6.3 The Complex Excitation Function -- 6.4 Phasors in R, L, and C Circuits -- 6.5 Impedance -- 6.6 Admittance -- 6.7 Summary -- 6.8 Exercises -- 6.9 Answers to Exercises -- Chapter 07 Phasor Circuit Analysis -- 7.1 Nodal Analysis -- 7.2 Mesh Analysis -- 7.3 Application of Superposition Principle -- 7.4 Thevenin's and Norton's Theorems -- 7.5 Phasor Analysis in Amplifier Circuits.
327   $a7.6 Phasor Diagrams -- 7.7 Electric Filters -- 7.8 Basic Analog Filters -- 7.9 Active Filter Analysis -- 7.10 Summary -- 7.11 Exercises -- 7.12 Answers to Exercises -- Chapter 08 Average and RMS Values, Complex Power, and Instruments -- 8.1 Periodic Time Functions -- 8.2 Average Values -- 8.3 Effective Values -- 8.4 Effective (RMS) Value of Sinusoids -- 8.5 RMS Values of Sinusoids with Different Frequencies -- 8.6 Average Power and Power Factor -- 8.7 Average Power in a Resistive Load -- 8.8 Average Power in Inductive and Capacitive Loads -- 8.9 Average Power in Non-Sinusoidal Waveforms -- 8.10 Lagging and Leading Power Factors -- 8.11 Complex Power - Power Triangle -- 8.12 Power Factor Correction -- 8.13 Instruments -- 8.14 Summary -- 8.15 Exercises -- 8.16 Answers to Exercises -- Chapter 09 Natural Response -- 9.1 The Natural Response of a Series RL circuit -- 9.2 The Natural Response of a Series RC Circuit -- 9.3 Summary -- 9.4 Exercises -- 9.5 Answers to Exercises -- Chapter 10 Forced and Total Response in RL and RC Circuits -- 10.1 The Unit Step Function -- 10.2 The Unit Ramp Function -- 10.3 The Delta Function -- 10.4 The Forced and Total Response in an RL Circuit -- 10.5 The Forced and Total Response in an RC Circuit -- 10.6 Summary -- 10.7 Exercises -- 10.8 Answers to Exercises -- Appendix A Introduction to MATLAB -- A.1 MATLABŪ and SimulinkŪ -- A.2 Command Window -- A.3 Roots of Polynomials -- A.4 Polynomial Construction from Known Roots -- A.5 Evaluation of a Polynomial at Specified Values -- A.6 Rational Polynomials -- A.7 Using MATLAB to Make Plots -- A.8 Subplots -- A.9 Multiplication, Division and Exponentiation -- A.10 Script and Function Files -- A.11 Display Formats -- Appendix B A Review of Complex Numbers -- B.1 Definition of a Complex Number -- B.2 Addition and Subtraction of Complex Numbers.
327   $aB.3 Multiplication of Complex Numbers -- B.4 Division of Complex Numbers -- B.5 Exponential and Polar Forms of Complex Numbers -- Appendix C Matrices and Determinants -- C.1 Matrix Definition -- C.2 Matrix Operations -- C.3 Special Forms of Matrices -- C.4 Determinants -- C.5 Minors and Cofactors -- C.6 Cramer's Rule -- C.7 Gaussian Elimination Method -- C.8 The Adjoint of a Matrix -- C.9 Singular and Non-Singular Matrices -- C.10 The Inverse of a Matrix -- C.11 Solution of Simultaneous Equations with Matrices -- C.12 Exercises -- Index.
330   $aThis text is an introduction to the basic principles of electrical engineering. It is intended for all engineering majors and presumes knowledge of first year differential and integral calculus and physics. The last two chapters include step-by-step procedures for the solutions of simple differential equations used in the derivation of the natural and forces responses. Appendix A is an introduction to MATLAB, and Appendices B and C provide a thorough review of complex numbers and matrices respectively.
606   $aElectric circuit analysis$xData processing
615  0$aElectric circuit analysis$xData processing.
676   $a621.319/2
700   $aKarris$b Steven T$0931060
801  0$bMiAaPQ
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906   $aBOOK
912   $a9910824861403321
996   $aCircuit analysis I$94072053
997   $aUNINA