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Index
Cover Preface About the Companion Website 1 Load Line Analysis and Fourier Series
1.1 Load Line Analysis 1.2 Voltage-Current Source Transformation 1.3 Thevenin/Norton Equivalent Circuits 1.4 Miller's Theorem 1.5 Fourier Series
2 Diode Circuits
2.1 The v‐i Characteristic of Diodes 2.2 Analysis/Simulation of Diode Circuits 2.3 Zender Diodes
3 BJT Circuits
3.1 BJT (Bipolar Junction Transistor) 3.2 BJT Amplifier Circuits 3.3 Logic Gates Using Diodes/Transistors[C-3, M-1] 3.4 Design of BJT Amplifier 3.5 BJT Amplifier Frequency Response 3.6 BJT Inverter Time Response Problems
4 FET Circuits
4.1 Field‐Effect Transistor (FET) 4.2 FET Amplifer 4.3 Design of FET Amplifier 4.4 FET Amplifier Frequency Response 4.5 FET Inverter Time Response Problems
5 OP Amp Circuits
5.1 OP Amp Basics [Y-1] 5.2 OP Amp Circuits with Resistors [Y-1] 5.3 First‐Order OP Amp Circuits [Y-1] 5.4 Second‐Order OP Amp Circuits [Y-1] 5.5 Active Filter [Y-1] Problems
6 Analog Filter
6.1 Analog Filter Design 6.2 Passive Filter 6.3 Passive Filter Realization 6.4 Active Filter Realization Problems
7 Smith Chart and Impedance Matching
7.1 Transmission Line 7.2 Smith Chart 7.3 Impedance Matching Using Smith Chart Problems
8 Two‐Port Network and Parameters
8.1 Two‐Port Parameters [Y-1] 8.2 Scattering Parameters 8.3 Gain and Stability Problems
Appendix A: Laplace TransformLaplace Transform
A.1 Definition of Laplace Transform A.2 Inverse Laplace Transform A.3 Laplace Transform of Electric Circuits
Appendix B: Matrix Operations with MATLABMatrix Operations with MATLAB
B.1 Addition and Subtraction B.2 Multiplication B.3 Determinant B.4 Inverse Matrix B.5 Solution of a Set of Linear Equations Using Inverse Matrix B.6 Operations on Matrices and Vectors Using MATLAB
Appendix C: Complex Number Operations with MATLABComplex Number Operations with MATLAB
C.1 Addition C.2 Multiplication C.3 Division C.4 Conversion between Rectangular Form and Polar/Exponential Form C.5 Operations on Complex Numbers Using MATLAB
Appendix D: Nonlinear/Differential Equations with MATLABNonlinear/Differential Equations with MATLAB
D.1 Nonlinear Equation Solver <fsolve&gt;> D.2 Differential Equation Solver <ode45&gt;>
Appendix E: Symbolic Computations with MATLABSymbolic Computations with MATLAB
E.1 How to Declare Symbolic Variables and Handle Symbolic Expressions E.2 Solving Algebraic Equations
Appendix F: Useful FormulasUseful Formulas Appendix G: Standard Values of Resistors, Capacitors, and InductorsStandard Values of Resistors, Capacitors, and Inductors
G.1 Color Code of Resistors G.2 Standard Values of Resistors G.3 Standard Values of Capacitors G.4 Standard Values of Inductors G.5 Standard Values of Zener Diode Voltage
Appendix H: OrCAD/PSpice®OrCAD/PSpice®
H.1 Starting Capture Component Information System (CIS) Session H.2 Drawing Schematic H.3 Setting Simulation Conditions H.4 Running PSpice Simulation and Observing the Results H.5 Circuit Analysis Using OrCAD/Capture H.6 How to Save a Project as another Project
Appendix I: MATLAB® IntroductionMATLAB® Introduction Appendix J: Diode/BJT/FETDiode/BJT/FET
J.1 Diode J.2 BJT (Bipolar Junction Transistor) J.3 FET (Field Effect Transistor)
Bibliography Index End User License Agreement
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