關于我們
書單推薦
新書推薦
|
電路基礎(英文版·原書第7版) 讀者對象:電類各專業(yè)的學生、自學者、有關技術人員和高校教師
本書以電路基礎知識、電路分析方法為主體,輔以典型例題,并穿插介紹電子工程領域相關歷史人物與知識,旨在改變以往枯燥的電路課程教學,引領新時代教材改革。
第7版涵蓋全面的線性電路分析方法,并保留了“設計一個問題”的功能,這有助于學生練習他們的設計技能,書中還有100多個“設計問題”習題集,有助于學生掌握關鍵概念。
Preface xi
A Note to the Student xi About the Authors xxiii PART 1 DC Circuits 2 Chapter 1 Basic Concepts 3 1.1 Introduction 4 1.2 Systems of Units 5 1.3 Charge and Current 6 1.4 Voltage 9 1.5 Power and Energy 10 1.6 Circuit Elements 14 1.7 Applications 16 1.7.1 TV Picture Tube 1.7.2 Electricity Bills 1.8 Problem Solving 19 1.9 Summary 22 Review Questions 23 Problems 24 Comprehensive Problems 26 Chapter 2 Basic Laws 29 2.1 Introduction 30 2.2 Ohm’s Law 30 2.3 Nodes, Branches, and Loops 35 2.4 Kirchhoff’s Laws 37 2.5 Series Resistors and Voltage Division 43 2.6 Parallel Resistors and Current Division 44 2.7 Wye-Delta Transformations 51 2.8 Applications 57 2.8.1 Lighting Systems 2.8.2 Design of DC Meters 2.9 Summary 63 Review Questions 64 Problems 65 Comprehensive Problems 77 Chapter 3 Methods of Analysis 79 3.1 Introduction 80 3.2 Nodal Analysis 80 3.3 Nodal Analysis with Voltage Sources 86 3.4 Mesh Analysis 91 3.5 Mesh Analysis with Current Sources 96 3.6 Nodal and Mesh Analyses by Inspection 98 3.7 Nodal Versus Mesh Analysis 102 3.8 Circuit Analysis with PSpice 103 3.9 Applications: DC Transistor Circuits 105 3.10 Summary 110 Review Questions 111 Problems 112 Comprehensive Problem 124 Chapter 4 Circuit Theorems 125 4.1 Introduction 126 4.2 Linearity Property 126 4.3 Superposition 129 4.4 Source Transformation 133 4.5 Thevenin’s Theorem 137 4.6 Norton’s Theorem 143 4.7 Derivations of Thevenin’s and Norton’s Theorems 147 4.8 Maximum Power Transfer 148 4.9 Verifying Circuit Theorems with PSpice 150 4.10 Applications 153 4.10.1 Source Modeling 4.10.2 Resistance Measurement 4.11 Summary 158 Review Questions 159 Problems 160 Comprehensive Problems 171 Chapter 5 Operational Amplifiers 173 5.1 Introduction 174 5.2 Operational Amplifiers 174 5.3 Ideal Op Amp 178 5.4 Inverting Amplifier 179 5.5 Noninverting Amplifier 181 5.6 Summing Amplifier 183 5.7 Difference Amplifier 185 5.8 Cascaded Op Amp Circuits 189 5.9 Op Amp Circuit Analysis with PSpice 192 5.10 Applications 194 5.10.1 Digital-to-Analog Converter 5.10.2 Instrumentation Amplifiers 5.11 Summary 197 Review Questions 199 Problems 200 Comprehensive Problems 211 Chapter 6 Capacitors and Inductors 213 6.1 Introduction 214 6.2 Capacitors 214 6.3 Series and Parallel Capacitors 220 6.4 Inductors 224 6.5 Series and Parallel Inductors 228 6.6 Applications 231 6.6.1 Integrator 6.6.2 Differentiator 6.6.3 Analog Computer 6.7 Summary 238 Review Questions 239 Problems 240 Comprehensive Problems 249 Chapter 7 First-Order Circuits 251 7.1 Introduction 252 7.2 The Source-Free RC Circuit 253 7.3 The Source-Free RL Circuit 257 7.4 Singularity Functions 263 7.5 Step Response of an RC Circuit 271 7.6 Step Response of an RL Circuit 278 7.7 First-Order Op Amp Circuits 282 7.8 Transient Analysis with PSpice 287 7.9 Applications 291 7.9.1 Delay Circuits 7.9.2 Photoflash Unit 7.9.3 Relay Circuits 7.9.4 Automobile Ignition Circuit 7.10 Summary 297 Review Questions 298 Problems 299 Comprehensive Problems 309 Chapter 8 Second-Order Circuits 311 8.1 Introduction 312 8.2 Finding Initial and Final Values 313 8.3 The Source-Free SeriesRLC Circuit 317 8.4 The Source-Free ParallelRLC Circuit 324 8.5 Step Response of a Series RLCCircuit 329 8.6 Step Response of a Parallel RLCCircuit 334 8.7 General Second-Order Circuits 337 8.8 Second-Order Op Amp Circuits 342 8.9 PSpice Analysis of RLC Circuits 344 8.10 Duality 348 8.11 Applications 351 8.11.1 Automobile Ignition System 8.11.2 Smoothing Circuits 8.12 Summary 354 Review Questions 355 Problems 356 Comprehensive Problems 365 PART 2 AC Circuits 366 Chapter 9 Sinusoids and Phasors 367 9.1 Introduction 368 9.2 Sinusoids 369 9.3 Phasors 374 9.4 Phasor Relationships for Circuit Elements 383 9.5 Impedance and Admittance 385 9.6 Kirchhoff’s Laws in the Frequency Domain 387 9.7 Impedance Combinations 388 9.8 Applications 394 9.8.1 Phase-Shifters 9.8.2 AC Bridges 9.9 Summary 400 Review Questions 401 Problems 401 Comprehensive Problems 409 Chapter 10 Sinusoidal Steady-State Analysis 411 10.1 Introduction 412 10.2 Nodal Analysis 412 10.3 Mesh Analysis 415 10.4 Superposition Theorem 419 10.5 Source Transformation 422 10.6 Thevenin and Norton Equivalent Circuits 424 10.7 Op Amp AC Circuits 429 10.8 AC Analysis Using PSpice 431 10.9 Applications 435 10.9.1 Capacitance Multiplier 10.9.2 Oscillators 10.10 Summary 439 Review Questions 439 Problems 441 Chapter 11 AC Power Analysis 455 11.1 Introduction 456 11.2 Instantaneous and Average Power 456 11.3 Maximum Average Power Transfer 462 11.4 Effective or RMS Value 465 11.5 Apparent Power and Power Factor 468 11.6 Complex Power 471 11.7 Conservation of AC Power 475 11.8 Power Factor Correction 479 11.9 Applications 481 11.9.1 Power Measurement 11.9.2 Electricity Consumption Cost 11.10 Summary 486 Review Questions 488 Problems 488 Comprehensive Problems 498 Chapter 12 Three-Phase Circuits 501 12.1 Introduction 502 12.2 Balanced Three-Phase Voltages 503 12.3 Balanced Wye-Wye Connection 507 12.4 Balanced Wye-Delta Connection 510 12.5 Balanced Delta-Delta Connection 512 12.6 Balanced Delta-Wye Connection 514 12.7 Power in a Balanced System 517 12.8 Unbalanced Three-Phase Systems 523 12.9 PSpice for Three-Phase Circuits 527 12.10 Applications 532 12.10.1 Three-Phase Power Measurement 12.10.2 Residential Wiring 12.11 Summary 541 Review Questions 541 Problems 542 Comprehensive Problems 551 Chapter 13 Magnetically Coupled Circuits 553 13.1 Introduction 554 13.2 Mutual Inductance 555 13.3 Energy in a Coupled Circuit 562 13.4 Linear Transformers 565 13.5 Ideal Transformers 571 13.6 Ideal Autotransformers 579 13.7 Three-Phase Transformers 582 13.8 PSpice Analysis of Magnetically Coupled Circuits 584 13.9 Applications 589 13.9.1 Transformer as an Isolation Device 13.9.2 Transformer as a Matching Device 13.9.3 Power Distribution 13.10 Summary 595 Review Questions 596 Problems 597 Comprehensive Problems 609 Chapter 14 Frequency Response 611 14.1 Introduction 612 14.2 Transfer Function 612 14.3 The Decibel Scale 615 14.4 Bode Plots 617 14.5 Series Resonance 627 14.6 Parallel Resonance 632 14.7 Passive Filters 635 14.7.1 Low-Pass Filter 14.7.2 High-Pass Filter 14.7.3 Band-Pass Filter 14.7.4 Band-Stop Filter 14.8 Active Filters 640 14.8.1 First-Order Low-Pass Filter 14.8.2 First-Order High-Pass Filter 14.8.3 Band-Pass Filter 14.8.4 Band-Reject (or Notch) Filter 14.9 Scaling 646 14.9.1 Magnitude Scaling 14.9.2 Frequency Scaling 14.9.3 Magnitude and Frequency Scaling 14.10 Frequency Response Using PSpice 650 14.11 Computation Using MATLAB 653 14.12 Applications 655 14.12.1 Radio Receiver 14.12.2 Touch-Tone Telephone 14.12.3 Crossover Network 14.13 Summary 661 Review Questions 662 Problems 663 Comprehensive Problems 671 PART 3 Advanced Circuit Analysis 672 Chapter 15 Introduction to the Laplace Transform 673 15.1 Introduction 674 15.2 Definition of the Laplace Transform 675 15.3 Properties of the Laplace Transform 677 15.4 The Inverse Laplace Transform 688 15.4.1 Simple Poles 15.4.2 Repeated Poles 15.4.3 Complex Poles 15.5 The Convolution Integral 695 15.6 Application to Integrodifferential Equations 703 15.7 Summary 706 Review Questions 706 Problems 707 Chapter 16 Applications of the Laplace Transform 713 16.1 Introduction 714 16.2 Circuit Element Models 715 16.3 Circuit Analysis 720 16.4 Transfer Functions 724 16.5 State Variables 728 16.6 Applications 735 16.6.1 Network Stability 16.6.2 Network Synthesis 16.7 Summary 743 Review Questions 744 Problems 745 Comprehensive Problems 756 Chapter 17 The Fourier Series 757 17.1 Introduction 758 17.2 Trigonometric Fourier Series 759 17.3 Symmetry Considerations 766 17.3.1 Even Symmetry 17.3.2 Odd Symmetry 17.3.3 Half-Wave Symmetry 17.4 Circuit Applications 776 17.5 Average Power and RMS Values 780 17.6 Exponential Fourier Series 783 17.7 Fourier Analysis with PSpice 789 17.7.1 Discrete Fourier Transform 17.7.2 Fast Fourier Transform 17.8 Applications 795 17.8.1 Spectrum Analyzers 17.8.2 Filters 17.9 Summary 798 Review Questions 800 Problems 800 Comprehensive Problems 809 Chapter 18 Fourier Transform 811 18.1 Introduction 812 18.2 Definition of the Fourier Transform 812 18.3 Properties of the Fourier Transform 818 18.4 Circuit Applications 831 18.5 Parseval’s Theorem 834 18.6 Comparing the Fourier and Laplace Transforms 837 18.7 Applications 838 18.7.1 Amplitude Modulation 18.7.2 Sampling 18.8 Summary 841 Review Questions 842 Problems 843 Comprehensive Problems 849 Chapter 19 Two-Port Networks 851 19.1 Introduction 852 19.2 Impedance Parameters 853 19.3 Admittance Parameters 857 19.4 Hybrid Parameters 860 19.5 Transmission Parameters 865 19.6 Relationships Between Parameters 870 19.7 Interconnection of Networks 873 19.8 Computing Two-Port Parameters Using PSpice 879 19.9 Applications 882 19.9.1 Transistor Circuits 19.9.2 Ladder Network Synthesis 19.10 Summary 891 Review Questions 892 Problems 892 Comprehensive Problem 903 Appendix A Simultaneous Equations and Matrix Inversion A Appendix B Complex Numbers A-9 Appendix C Mathematical Formulas A-16 Appendix D Answers to Odd-Numbered Problems A-21 Selected Bibliography B-1 Index I-1
你還可能感興趣
我要評論
|