MATLAB and PSpice for Electronic Circuits

Examples present analytical solutions with MATLAB analysis and PSpice simulation
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Updated 24 Nov 2017

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CHAPTER 1: LOAD LINE ANALYSIS AND FOURIER SERIES
1.1 LOAD LINE ANALYSIS
1.1.1 Load Line Analysis of a Nonlinear Resistor Circuit
1.1.2 Load Line Analysis of a Nonlinear RL Circuit
1.2 FOURIER SERIES
1.2.1 Computation of Fourier Coefficients Using Symmetry0
1.2.2 Circuit Analysis Using Fourier Series
1.2.3 RMS Value and Distortion Factor of a Non-Sinusoidal Periodic Signal
CHAPTER 2: DIODE CIRCUITS
2.1 THE V-I CHARACTERISTIC OF DIODES
2.1.1 Large-Signal Diode Model for Switching Operations
2.1.2 Small-Signal Diode Model for Amplifying Operations
2.2 ANALYSIS/SIMULATION OF DIODE CIRCUITS
2.2.1 AND Gate
2.2.2 Clipper/Clamper Circuits
2.2.3 Half-Wave Rectifier
2.2.4 Half-Wave Rectifier with Capacitor Filter3
2.2.5 Full-Wave Rectifier with LC Filter
2.2.6 Small-Signal (AC) Analysis of Diode Circuits
2.3 ZENER DIODES
CHAPTER 3: TRANSISTOR CIRCUITS
3.1 BJT
3.1.1 Ebers-Moll Representation of BJT
3.1.2 Operation Modes of BJT
3.1.3 Parameters of BJT
3.1.4 Common-Base Configuration
3.1.5 Common-Emitter Configuration
3.1.6 Large-Signal (DC) Model of BJT
3.1.7 Small-Signal (AC) Model of BJT
3.1.8 Analysis of BJT Circuits
3.1.9 BJT Used as a Diode
3.1.10 BJT Switch/Inverter
3.1.11 Emitter-Coupled or Differential Pair
3.2 BJT AMPLIFIER CIRCUITS
3.2.1 Common-Emitter Amplifier
3.2.2 Common-Collector Amplifier
3.2.3 Common-Base Amplifier
3.2.4 Cascaded Multi-Stage BJT Amplifier
3.2.5 Compound/Composite Multi-Stage BJT Amplifier
3.3 LOGIC GATES USING DIODES/TRANSISTORS
3.3.1 DTL NAND Gate
3.3.2 TTL NAND Gate
3.3.3 ECL OR/NOR Gate
3.4 FET
3.4.1 JFET
3.4.2 MOSFET
3.4.3 MOSFET Used as a Resistor
3.4.4 MOSFET Inverter
3.4.5 CMOS Logic Circuits
3.5 FET AMLIFIER
3.5.1 Common-Source Amplifier
3.5.2 Common-Drain Amplifier
3.5.3 Common-Gate Amplifier
3.5.4 Common-Source Amplifier with FET Load
3.6 DESIGN OF TRANSISTOR AMPLIFIER
3.6.1 Design of BJT AMplifier
3.6.2 Design of FET Amplifier
CHAPTER 4: OP AMP CIRCUITS
4.1 OP AMP BASICS
4.2 OP AMP CIRCUITS WITH RESISTORS
4.2.1 OP Amp Circuits with Negative Feedback
4.2.2 OP Amp Circuits with Positive Feedback
4.3 FIRST-ORDER OP AMP CIRCUITS
4.3.1 First-Order OP Amp Circuits with Negative Feedback
4.3.2 First-Order OP Amp Circuits with Positive Feedback
4.3.3 555 Timer Using OP Amp as Comparator
4.4 SECOND-ORDER OP AMP CIRCUITS
4.4.1 MFB (Multi-Feedback) Topology
4.4.2 Sallen-Key Topology
4.5 ACTIVE FILTERS
4.5.1 First-Order Active Filter
4.5.2 Second-Order Active LPF/HPF
4.5.3 Second-Order Active BPF
4.5.4 Second-Order Active BSF
CHAPTER 5: ANALOG FILTER
5.1 ANALOG FILTER DESIGN
5.2 PASSIVE FILTER REALIZATION
5.2.1 LPF
5.2.2 HPF
5.2.3 BPF
5.2.4 BSF
5.2.5 Frequency Scaling and Transformation
5.2.6 Multistage LC Filter
5.2.7 L-Type Impedance Matcher
5.2.8 T- and -Type Impedance Matchers
5.3 ACTIVE FILTER REALIZATION

Cite As

Won Y. Yang (2024). MATLAB and PSpice for Electronic Circuits (https://www.mathworks.com/matlabcentral/fileexchange/40988-matlab-and-pspice-for-electronic-circuits), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2011a
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Version Published Release Notes
1.0.0.0

This file has been updated on 11/24/2017 so that it can be opened with no code.