Electronics and Circuit Analysis using Matlab - JOHN O. ATTIA
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The book is divided into three parts: Introduction to MATLAB, Circuit analysis applications using MATLAB, and electronics applications with MATLAB. It is recommended that the reader work through and experiment with the examples at a computer while reading Chapters 1, 2, and 3. The hands-on approach is one of the best way of learning MATLAB.

Part II consists of Chapters 4 to 8. This part covers the applications of MATLAB in circuit analysis. The topics covered in Part II are dc analysis, transient analysis, alternating current analysis, and Fourier analysis. In addition, two-port networks are covered. I have briefly covered the underlying theory and concepts, not with the aim of writing a textbook on circuit analysis and electronics. Selected problems in circuit analysis have been solved using MATLAB.

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Part III includes Chapters 9, 10, 11 and 12. The topics discussed in this part are diodes, semiconductor physics, operational amplifiers and transistor circuits. Application of MATLAB for problem solving in electronics is discussed. Extensive examples showing the use of MATLAB for solving problems in electronics are presented.

Each chapter has its own bibliography and exercises.

CONTENTS

CHAPTER 1: MATLAB FUNDAMENTALS
1.1 MATLAB BASIC OPERATIONS
1.2 MATRIX OPERATIONS
1.3 ARRAY OPERATIONS
1.4 COMPLEX NUMBERS
1.5 THE COLON SYMBOL ( : )
1.6 M-FILES
1.6.1 Script files
1.6.2 Function files

CHAPTER 2: PLOTTING COMMANDS
2.1 GRAPH FUNCTIONS
2.2 X-Y PLOTS AND ANNOTATIONS
2.3 LOGARITHMIC AND POLAR PLOTS
2.4 SCREEN CONTROL

CHAPTER 3: CONTROL STATEMENTS
3.1 FOR LOOPS
3.2 IF STATEMENTS
3.3 WHILE LOOP
3.4 INPUT/OUTPUT COMMANDS

CHAPTER 4: DC ANALYSIS
4.1 NODAL ANALYSIS
4.2 LOOP ANALYSIS
4.3 MAXIMUM POWER TRANSFER
4.3.1 MATLAB diff and find Functions

CHAPTER 5: TRANSIENT ANALYSIS
5.1 RC NETWORK
5.2 RL NETWORK
5.3 RLC CIRCUIT
5.4 STATE VARIABLE APPROACH
5.4.1 MATLAB ode functions

CHAPTER 6: AC ANALYSIS AND NETWORK FUNCTIONS
6.2 SINGLE- AND THREE-PHASE AC CIRCUITS
6.3 NETWORK CHARACTERISTICS
6.3.1 MATLAB functions roots, residue and
polyval
6.4 FREQUENCY RESPONSE
6.4.1 MATLAB Function freqs

CHAPTER 7: TWO-PORT NETWORKS
7.1 TWO-PORT NETWORK REPRESENTATIONS
7.1.1 z-parameters
7.1.2 y-parameters
7.1.3 h-parameters
7.1.4 Transmission parameters
7.2 INTERCONNECTION OF TWO-PORT NETWORKS
7.3 TERMINATED TWO-PORT NETWORKS

CHAPTER 8: FOURIER ANALYSIS
8.1 FOURIER SERIES
8.2 FOURIER TRANSFORMS
8.2.1 Properties of Fourier transform
8.3 DISCRETE AND FAST FOURIER TRANSFORMS
8.3.1 MATLAB function fft

CHAPTER 9: DIODES
9.1 DIODE CHARACTERISTICS
9.1.1 Forward-biased region
9.1.2 MATLAB function polyfit
9.1.3 Temperature effects
9.2 ANALYSIS OF DIODE CIRCUITS
9.3 HALF-WAVE RECTIFIER
9.3.1 MATLAB function fzero
9.4 FULL-WAVE RECTIFICATION
9.5 ZENER DIODE VOLTAGE REGULATOR CIRCUIT

CHAPTER 10: SEMICONDUCTOR PHYSICS
10.1 INTRINSIC SEMICONDUCTOR
10.1.1 Energy bands
10.1.2 Mobile carriers
10.2 EXTRINSIC SEMICONDUCTOR
10.2.1 Electron and hole concentrations
10.2.2 Fermi level
10.2.3 Current density and mobility
10.3 PN JUNCTION: CONTACT POTENTIAL,
JUNCTION CURRENT
10.3.1 Contact potential
10.3.2 Junction current
10.4 DEPLETION AND DIFFUSION CAPACITANCES
10.4.1 Depletion capacitance
10.4.2 Diffusion capacitance
10.5 BREAKDOWN VOLTAGES OF PN JUNCTIONS

CHAPTER 11: OPERATIONAL AMPLIFIERS
11.1 PROPERTIES OF THE OP AMP
11.2 INVERTING CONFIGURATION
11.3 NON-INVERTING CONFIGURATION
11.4 EFFECT OF FINITE OPEN-LOOP GAIN
11.5 FREQUENCY RESPONSE OF OP AMPS
11.6 SLEW RATE AND FULL-POWER BANDWIDTH
11.7 COMMON-MODE REJECTION

CHAPTER 12: TRANSISTOR CIRCUITS
12.1 BIPOLAR JUNCTION TRANSISTORS
12.2 BIASING OF BJT DISCRETE CIRCUITS
12.2.1 Self-bias circuit
12.2.2 Bias stability
12.3 INTEGRATED CIRCUIT BIASING
12.3.1 Simple current mirror
12.3.2 Wilson current source
12.4 FREQUENCY RESPONSE OF COMMON EMITTER AMPLIFIER
12.5 MOSFET CHARACTERISTICS
12.6 BIASING OF MOSFET CIRCUITS
12.7 FREQUENCY RESPONSE OF COMMON-SOURCE AMPLIFIER

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