This edition first published 2020 © 2020 John Wiley & Sons, Inc. Park, Donghyun Baek, Sungjoon Lim, Jingon Joung, Suhyun Park, Han L. 1 Load Line Analysis and Fourier Series 1ġ.1.1 Load Line Analysis of a Nonlinear Resistor Circuit 3ġ.1.2 Load Line Analysis of a Nonlinear RL circuit 7ġ.2 Voltage-Current Source Transformation 10ġ.3 Thevenin/Norton Equivalent Circuits 11ġ.5.1 Computation of Fourier Coefficients Using Symmetry 20ġ.5.2 Circuit Analysis Using Fourier Series 29ġ.5.3 RMS Value and Distortion Factor of a Non-Sinusoidal Periodic Signal 35Ģ.1.1 Large-Signal Diode Model for Switching Operations 44Ģ.1.2 Small-Signal Diode Model for Amplifying Operations 44Ģ.2 Analysis/Simulation of Diode Circuits 46Ģ.2.4 Half-wave Rectifier with Capacitor – Peak Rectifier 53Ģ.2.6 Full-wave Rectifier with LC Filter 59Ģ.2.7.1 Improved Precision Half-wave Rectifier 63Ģ.2.8 Small-Signal (AC) Analysis of Diode Circuits 67ģ.1 BJT (Bipolar Junction Transistor) 106ģ.1.1 Ebers-Moll Representation of BJT 106ģ.1.2 Operation Modes (Regions) of BJT 109ģ.1.11 Emitter-Coupled Differential Pair 165ģ.2.2 Common-Collector (CC) Amplifier (Emitter Follower) 173ģ.2.4 Multistage Cascaded BJT Amplifier 187ģ.2.5 Composite/Compound Multi-Stage BJT Amplifier 199ģ.3 Logic Gates Using Diodes/Transistors 209ģ.3.2.1 Basic TTL NAND Gate Using Two BJTs 215ģ.3.2.2 TTL NAND Gate Using Three BJTs 218ģ.3.2.4 Open-Collector Output and Tristate Output 227ģ.3.3 ECL (Emitter-Coupled Logic) OR/NOR Gate 229ģ.4.1 Design of CE Amplifier with Specified Voltage Gain 232ģ.4.2 Design of CC Amplifier (Emitter Follower) with Specified Input Resistance 239ģ.5.2 CC Amplifier (Emitter Follower) 248Ĥ.1.2 MOSFET (Metal-Oxide-Semiconductor FET) 313Ĥ.1.5.1 NMOS Inverter Using an Enhancement NMOS as a Load 342Ĥ.1.5.2 NMOS Inverter Using a Depletion NMOS as a Load 347Ĥ.1.6 Source-Coupled Differential Pair 355Ĥ.2.4 Common-Source (CS) Amplifier with FET Load 373Ĥ.2.4.1 CS Amplifier with an Enhancement FET Load 373Ĥ.2.4.2 CS Amplifier with a Depletion FET Load 376ĥ.2 OP Amp Circuits with Resistors 471ĥ.2.1 OP Amp Circuits with Negative Feedback 471ĥ.2.2 OP Amp Circuits with Positive Feedback 479ĥ.2.2.1 Inverting Positive Feedback OP Amp Circuit 480ĥ.2.2.2 Non-Inverting Positive Feedback OP Amp Circuit 481ĥ.3.1 First-Order OP Amp Circuits with Negative Feedback 485ĥ.3.2 First-Order OP Amp Circuits with Positive Feedback 487ĥ.3.2.1 Square(Rectangular)-Wave Generator 487ĥ.3.2.2 Rectangular/Triangular-Wave Generator 490ĥ.3.3 555 Timer Using OP Amp as Comparator 492ĥ.4 Second-Order OP Amp Circuits 495Ħ.2.3.1 Series Resistor, an Inductor, and a Capacitor (RLC) Circuit and Series Resonance 536Ħ.2.3.2 Parallel RLC Circuit and Parallel Resonance 539Ħ.2.7 Frequency Scaling and Transformation 549Ħ.3.3 T- and П-Type Impedance Matchers 565ħ.3 Impedance Matching Using Smith Chart 616ħ.3.1 Reactance Effect of a Lossless Line 616ħ.3.5 Filter Implementation Using Stubs 635ħ.3.6 Impedance Matching with Lumped Elements 646Ĩ.1.1 Definitions and Examples of Two-Port Parameters 678Ĩ.1.2 Relationships Among Two-Port Parameters 685Ĩ.1.3 Interconnection of Two-Port Networks 689Ĩ.1.3.1 Series Connection and z-parameters 690Ĩ.1.3.2 Parallel (Shunt) Connection and y-parameters 690Ĩ.1.3.3 Series-Parallel(Shunt) Connection and h-parameters 691Ĩ.1.3.4 Parallel(Shunt)-Series Connection and g-parameters 691Ĩ.1.3.5 Cascade Connection and a-parameters 692Ĩ.1.5 Circuit Models with Given Parameters 697Ĩ.1.5.1 Circuit Model with Given z-parameters 697Ĩ.1.5.2 Circuit Model with Given y-parameters 699Ĩ.1.5.3 Circuit Model with Given a/b-parameters 699Ĩ.1.5.4 Circuit Model with Given h/g-parameters 699Ĩ.1.6 Properties of Two-Port Networks with Source/Load 700Ĩ.2.1 Definition of Scattering Parameters 709Ĩ.2.2 Two-Port Network with Source/Load 714Ĩ.3.3 Design for Maximum Gain 733Ĩ.3.4 Design for Specified Gain 740Īppendix B Matrix Operations with MATLAB 767Īppendix C Complex Number Operations with MATLAB 773Īppendix D Nonlinear/Differential Equations with MATLAB 775Īppendix E Symbolic Computations with MATLAB 779Īppendix G Standard Values of Resistors, Capacitors, and Inductors 785Įlectronic Circuits with MATLAB®, PSpice®, and Smith ChartĮlectronic Circuits with MATLAB®, PSpice®, and Smith Chart Won Y.
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