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电路基础pdf电子书版本下载
- Charles K.Alexander Matthew N.O.Sadiku 著
- 出版社: 北京:清华大学出版社
- ISBN:7900630988
- 出版时间:2000
- 标注页数:943页
- 文件大小:91MB
- 文件页数:957页
- 主题词:
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图书目录
PART 1 DC CIRCUITS 1
Chapter1 Basic Concepts 3
1.1 Introduction 4
1.2 Systems of Units 4
1.3 Charge and Current 6
1.4 Voltage 9
1.5 Power and Energy 10
1.6 Circuit Elements 13
1.7 Applications 15
1.7.1 TV Picture Tube 18
1.7.2 Electricity Bills 18
1.8 Problem Solving 18
1.9 Summary 21
Review Questions 22
Problems 23
Comprehensive Problems 25
Chapter2 Basic Laws 27
2.1 Introduction 28
2.2 Ohm's Laws 28
2.3 Nodes, Branches, and Loops 33
2.4 Kirchhoff's Laws 35
2.5 Series Resistors and Voltage Division 41
2.6 Parallel Resistors and Current Division 42
2.7 Wye-Delta Transformations 50
2.8 Applications 54
2.9 Summary 60
Review Questions 61
Prublems 63
Comprehensive Problems 72
Chapter3 Methods of Analysis 75
3.1 Introduction 76
3.2 Nodal Analysis 76
3.3 Nodal Analysis with Voltage Sources 82
3.4 Mesh Analysis 87
3.5 Mesh Analysis with Current Sources 92
3.6 Nodal and Mesh Analyses by Inspection 95
3.7 Nodal Versus Mesh Analysis 99
3.8 Circuit Analysis with PSpice 100
3.9 Applications: DC Transistor Circuits 102
3.10 Summary 107
Review Questions 107
Problems 109
Comprehensive Problems 117
Chapter4 Circuit Theorems 119
4.1 Introduction 120
4.2 Linearity Property 120
4.3 Superposition 122
4.4 Source Transformation 127
4.5 Thevenin's Theorem 131
4.6 Norton's Theorem 137
4.7 Derivations of Thevenin's and Norton's Theorems 140
4.8 Maximum Power Transfer 142
4.9 Verifying Circuit Theorems with PSpice 144
4.10 Applications 147
4.11 Summary 153
Review Questions 153
Problems 154
Comprehensive Problems 162
Chapter5 Operational Amplifiers 165
5.1 Introduction 166
5.2 Operational Amplifiers 166
5.3 Ideal Op Amp 170
5.4 Inverting Amplifier 171
5.5 Noninverting Amplifier 174
5.6 Summing Amplifier 176
5.7 Difference Amplifier 177
5.8 Cascaded Op Amp Circuits 181
5.9 Op Amp Circuit Analysis with PSpice 183
5.10 Applications 185
5.11 Summary 188
Review Questions 190
Problems 191
Comprehensive Problems 200
Chapter6 Capacitors and Inductors 201
6.1 Introduction 202
6.2 Capacitors 202
6.3 Series and Parallel Capacitors 208
6.4 Inductors 211
6.5 Series and Parallel Inductors 216
6.6 Applications 219
6.7 Summary 225
Review Questions 226
Problems 227
Comprehensive Problems 235
Chapter7 First-Order Circuits 237
7.1 Introduction 238
7.2 The Source-free RC Circuit 238
7.3 The Source-free RL Circuit 243
7.4 Singularity Functions 249
7.5 Step Response of an RC Circuit 257
7.6 Step Response of an RL Circuit 263
7.7 First-order Op Amp Circuits 268
7.8 Transient Analysis with PSpice 273
7.9 Applications 276
7.10 Summary 282
Review Questions 283
Problems 284
Comprehensive Problems 293
Chapter8 Second-Order Circuits 295
8.1 Introduction 296
8.2 Finding Initial and Final Values 296
8.3 The Source-Free Series RLC Circuit 301
8.4 The Source-Free Parallel RLC Circuit 308
8.5 Step Response of a Series RLC Circuit 314
8.6 Step Response of a Parallel RLC Circuit 319
8.7 General Second-Order Circuits 322
8.8 Second-Order Op Amp Circuits 327
8.9 PSpice Analysis of RLC Circuits 330
8.10 Duality 332
8.11 Applications 336
8.12 Summary 340
Review Questions 340
Problems 341
Comprehensive Problems 350
PART 2 AC CIRCUITS 351
Chapter9 Sinusoids and Phasors 353
9.1 Introduction 354
9.2 Sinusoids 355
9.3 Phasors 359
9.4 Phasor Relationships for Circuit Elements 367
9.5 Impedance and Admittance 369
9.6 Kirchhoff's Laws in the Frequency Domain 372
9.7 Impedance Combinations 373
9.8 Applications 379
9.9 Summary 384
Review Questions 385
Problems 385
Comprehensive Problems 392
Chapter10 Sinusoidal Steady-State Analysis 393
10.1 Introduction 394
10.2 Nodal Analysis 394
10.3 Mesh Analysis 397
10.4 Superposition Theorem 400
10.5 Source Transformation 404
10.6 Thevenin and Norton Equivalent Circuits 406
10.7 Op Amp AC Circuits 411
10.8 AC Analysis Using PSpice 413
10.9 Applications 416
10.10 Summary 420
Review Questions 421
Problems 422
Chapter11 AC Power Analysis 433
11.1 Introduction 434
11.2 Instantaneous and Average Power 434
11.3 Maximum Average Power Transfer 440
11.4 Effective or RMS Value 443
11.5 Apparent Power and Power Factor 447
11.6 Complex Power 449
11.7 Conservation of AC Power 453
11.8 Power Factor Correction 457
11.9 Applications 459
11.10 Summary 464
Review Questions 465
Problems 466
Comprehensive Problems 474
Chapter12 Three-Phase Circuits 477
12.1 Introduction 478
12.2 Balanced Three-Phase Voltages 479
12.3 Balanced Wye-Wye Connection 482
12.4 Balanced Wye-Delta Connection 486
12.5 Balanced Delta-Delta Connection 488
12.6 Balanced Delta-Wye Connection 490
12.7 Power in a Balanced System 494
12.8 Unbalanced Three-Phase Systems 500
12.9 PSpice for Three-Phase Circuits 504
12.10 Applications 508
12.11 Summary 516
Review Questions 517
Problems 518
Comprehensive Problems 525
Chapter13 Magnetically Coupled Circuits 527
13.1 Introduction 528
13.2 Mutual Inductance 528
13.3 Energy in a Coupled Circuit 535
13.4 Linear Transformers 539
13.5 Ideal Transformers 545
13.6 Ideal Autotransformers 552
13.7 Three-Phase Transformers 556
13.8 PSpice Analysis of Magnetically Coupled Circuits 559
13.9 Applications 563
13.10 Summary 569
Review Questions 570
Problems 571
Comprehensive Problems 582
Chapter14 Frequency Response 583
14.1 Introduction 584
14.2 Transfer Function 584
14.3 The Decibel Scale 588
14.4 Bode Plots 589
14.5 Series Resonance 600
14.6 Parallel Resonance 605
14.7 Passive Filters 608
14.8 Active Filters 613
14.9 Scaling 619
14.10 Frequency Response Using PSpice 622
14.11 Applications 626
14.12 Summary 631
Review Questions 633
Problems 633
Comprehensive Problems 640
PART 3 ADVANCED CIRCUIT ANALYSIS 643
Chapter15 The Laplace Transform 645
15.1 Introduction 646
15.2 Definition of the Laplace Transform 646
15.3 Properties of the Laplace Transform 649
15.4 The Inverse Laplace Transform 659
15.5 Applicaton to Circuits 666
15.6 Transfer Functions 672
15.7 The Convolution Integral 677
15.8 Application to Integrodifferential Equations 685
15.9 Applications 687
15.10 Summary 694
Review Questions 696
Problems 696
Comprehensive Problems 705
Chapter16 The Fourier Series 707
16.1 Introduction 708
16.2 Trigonometric Fourier Series 708
16.3 Symmetry Considerations 717
16.4 Circuit Applicatons 727
16.5 Average Power and RMS Values 730
16.6 Exponential Fourier Series 734
16.7 Fourier Analysis with PSpice 740
16.8 Applications 746
16.9 Summary 749
Review Questions 751
Problems 751
Comprehensive Problems 758
Chapter17 FourierTransform 759
17.1 Introduction 760
17.2 Definition of the Fourier Transform 760
17.3 Properties of the Fourier Transform 766
17.4 Circuit Applications 779
17.5 Parseval's Theorem 782
17.6 Comparing the Fourier and Laplace Transforms 784
17.7 Applications 785
17.8 Summary 789
Review Questions 790
Problems 790
Comprehensive Problems 794
Chapter18 Two-Port Networks 795
18.1 Introduction 796
18.2 Impedance Parameters 796
18.3 Admittance Parameters 801
18.4 Hybrid Parameters 804
18.5 Transmission Parameters 809
18.6 Relationships between Parameters 814
18.7 Interconnection of Networks 817
18.8 Computing Two-Port Parameters Using PSpice 823
18.9 Applications 826
18.10 Summary 833
Review Questions 834
Problems 835
Comprehensive Problems 844
Appendix A Solution of Simultaneous Equations Using Cramer's Rule 845
Appendix B Complex Numbers 851
Appendix C Mathematical Formulas 859
Appendix D PSpice for Windows 865
Appendix E Answers to Odd-Numbered Problems 893
Selected Bibliography 929
Index 933