Useful to students, professional engineers, scientists, and technicians, Electronics and Circuit Analysis Using MATLABВ·provides a simple, easy-to-understand, hands-on introduction to MATLABВ·demonstrates the use of MATLAB for solving electronic problemsВ·outlines various ways MATLAB solves circuit analysis problemsВ·shows the flexibility of MATLAB for solving general engineering and scientific problemsThis book divides into three parts: introduction to MATLAB, applications of MATLAB in circuit analysis, and electronics applications with MATLAB. Topics covered include plotting functions, control statements, two-port networks, Fourier analysis, diodes, semiconductor physics, operational amplifiers, and transistor circuits.
Author(s): John Okyere Attia
Edition: Har/Dis
Publisher: CRC Press
Year: 1999
Language: English
Pages: 386
City: Boca Raton, Fla
Electronics and Circuit Analysis using MATLAB......Page 1
DISCLAIMER......Page 2
PREFACE......Page 3
DEDICATION......Page 5
CHAPTER THREE CONTROL STATEMENTS......Page 6
CHAPTER SIX AC ANALYSIS AND NETWORK FUNCTIONS......Page 7
CHAPTER NINE DIODES......Page 8
CHAPTER TWELVE TRANSISTOR CIRCUITS......Page 9
LIST OF EXAMPLES IN TEXT......Page 11
1.1 - MATHLAB BASIC OPERATIONS......Page 17
1.2 - MATRIX OPERATIONS......Page 21
1.3 - ARRAY OPERATIONS......Page 23
1.4 - COMPLEX NUMBERS......Page 25
1.5 - THE COLON SYMBOL (:)......Page 27
1.6 - M-FILES......Page 31
SELECTED BIBLIOGRAPHY......Page 36
EXERCISES......Page 37
2.1 - GRAPH FUNCTIONS......Page 39
2.2 - X-Y PLOTS AND ANNOTATIONS......Page 40
2.3 - LOGARITHMIC AND POLAR PLOTS......Page 46
2.4 - SCREEN CONTROL......Page 49
EXERCISES......Page 51
3.1 - FOR LOOPS......Page 54
3.2 - IF STATEMENTS......Page 56
3.3 - WHILE LOOP......Page 61
3.4 - INPUT/OUTPUT COMMANDS......Page 63
EXERCISES......Page 68
4.1 - NODAL ANALYSIS......Page 70
4.2 - LOOP ANALYSIS......Page 76
4.3 - MAXIMUM POWER TRANSFER......Page 87
EXERCISES......Page 92
5.1 - RC NETWORK......Page 96
5.2 - RL NETWORK......Page 101
5.3 - RLC CIRCUIT......Page 105
5.4 - STATE VARIABLE APPROACH......Page 111
EXERCISES......Page 125
6.1 - STEADY STATE AC POWER......Page 128
6.2 - SINGLE- AND THREE-PHASE AC CIRCUITS......Page 133
6.3 - NETWORK CHARACTERISTICS......Page 145
6.4 - FREQUENCY RESPONSE......Page 154
SELECTED BIBLIOGRAPHY......Page 161
EXERCISES......Page 162
7.1 - TWO-PORT NETWORK REPRESENTATIONS......Page 166
7.2 - INTERCONNECTION OF TWO-PORT NETWORKS......Page 176
7.3 - TERMINATED TWO-PORT NETWORKS......Page 183
SELECTED BIBLIOGRAPHY......Page 189
EXERCISES......Page 190
8.1 - FOURIER SERIES......Page 194
8.2 - FOURIER TRANSFORMS......Page 204
8.3 - DISCRETE AND FAST FOURIER TRANSFORMS......Page 207
SELECTED BIBLIOGRAPHY......Page 214
EXERCISES......Page 215
9.1 - DIODE CHARACTERISTICS......Page 220
9.2 - ANALYSIS OF DIODE CIRCUITS......Page 228
9.3 - HALF-WAVE RECTIFIER......Page 234
9.4 - FULL-WAVE RECTIFICIATION......Page 243
9.5 - ZENER DIODE VOLTAGE REGULATOR CIRCUITS......Page 249
EXERCISES......Page 256
10.1 - INTRINSIC SEMICONDUCTORS......Page 260
10.2 - EXTRINSIC SEMICONDUCTOR......Page 265
10.3 - PN JUNCTION: CONTACT POTENTIAL, JUNCTION CURRENT......Page 274
10.4 - DEPLETION AND DIFFUSION CAPACITANCES......Page 284
10.5 - BREAKDOWN VOLTAGES OF PN JUNCTIONS......Page 295
REFERENCES......Page 299
EXERCISES......Page 300
11.1 - PROPERTIES OF THE OP AMP......Page 302
11.2 - INVERTING CONFIGURATION......Page 305
11.3 - NON-INVERTING CONFIGURATION......Page 312
11.4 - EFFECT OF FINITE OPEN-LOOP AGAIN......Page 316
11.5 - FREQUENCY RESPONSE OF OP AMPS......Page 320
11.6 - SLEW RATE AND FULL-POWER BANDWIDTH......Page 326
11.7 - COMMON-MODE REJECTION......Page 328
EXERCISES......Page 333
12.1 - BIPOLAR JUNCTION TRANSISTORS......Page 336
12.2 - BIASING BJT DISCRETE CIRCUITS......Page 345
12.3 - INTEGRATED CICRUIT BIASING......Page 353
12.4 - FREQUENCY RESPONSE OF COMMON EMITTER AMPLIFIER......Page 359
12.5 - MOSFET CHARACTERISTICS......Page 365
12.6 - BIASING OF MOSFET CIRCUITS......Page 369
12.7 - FREQUENCY RESPONSE OF COMMON-SOURCE AMPLIFIER......Page 378
SELECTED BIBLIOGRAPHY......Page 384
EXERCISES......Page 385
