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      Basic electric circuit analysis

      한글로보기

      https://www.riss.kr/link?id=M414272

      • 저자
      • 발행사항

        Englewood Cliffs, N.J. : Prentice-Hall, c1984

      • 발행연도

        1984

      • 작성언어

        영어

      • 주제어
      • DDC

        621.319/2 판사항(19)

      • ISBN

        013060111X

      • 자료형태

        일반단행본

      • 발행국(도시)

        New Jersey

      • 서명/저자사항

        Basic electric circuit analysis / D. E. Johnson, J. L. Hilburn, J. R. Johnson.

      • 판사항

        2nd ed

      • 형태사항

        x, 629 p. : col. ill. ; 25 cm.

      • 일반주기명

        Includes index.

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      목차 (Table of Contents)

      • CONTENTS
      • PREFACE = ⅸ
      • 1. INTRODUCTION = 1
      • 1.1 Definitions and Units = 2
      • 1.2 Charge and Current = 5
      • CONTENTS
      • PREFACE = ⅸ
      • 1. INTRODUCTION = 1
      • 1.1 Definitions and Units = 2
      • 1.2 Charge and Current = 5
      • 1.3 Voltage, Energy, and Power = 8
      • 1.4 Passive and Active Elements = 12
      • 1.5 Circuit Analysis = 15
      • 2. RESISTIVE CIRCUITS = 18
      • 2.1 Ohm's Low = 19
      • 2.2 Kirchhoffs Laws = 24
      • 2.3 Series Resistance and Voltage Division = 32
      • 2.4 Parallel Resistance and Current Division = 37
      • 2.5 Analysis Examples = 43
      • 2.6 Ammeters, Voltmeters, and Ohmmeters* = 48
      • 2.7 Physical Resistors* = 51
      • 3. DEPENDENT SOURCES = 58
      • 3.1 Definitions = 59
      • 3.2 Circuits with Dependent Sources = 60
      • 3.3 operational Amplifiers = 62
      • 3.4 Amplifier Circuits = 65
      • 4. ANALYSIS METHODS = 76
      • 4.1 Nodal Analysis = 77
      • 4.2 An Example = 81
      • 4.3 Circuits Containing Voltage Sources = 84
      • 4.4 circuits Containing Op Amps = 89
      • 4.5 Mesh Analysis = 92
      • 4.6 circuits Containing Current Sources = 95
      • 4.7 Duality* = 99
      • 5. NETWORK THEOREMS = 112
      • 5.1 Linear Circuits = 113
      • 5.2 Superposition = 118
      • 5.3 Thevenin's and Norton's Theorems = 124
      • 5.4 Practical Sources = 133
      • 5.5 Maximum Power Transfer = 139
      • 6. INDEPENDENCE OF EQUATIONS* = 147
      • 6.1 Graph of a Network = 148
      • 6.2 Trees and Links = 150
      • 6.3 Independent Voltage Equations = ⅰ52
      • 6.4 Independent Current Equations = 155
      • 6.5 A Circuit Application = 159
      • 7. ENERGY-STORAGE ELEMENTS = 164
      • 7.1 Capacitors = 165
      • 7.2 Energy Storage in Capacitors = 170
      • 7.3 Series and Parallel Capacitors = 172
      • 7.4 Inductors = 176
      • 7.5 Energy Storage in Inductors = 180
      • 7.6 Series and Parallel Inductors = 182
      • 7.7 Practical Capacitors and Inductors* = 185
      • 7.8 Duality and Linearity = 187
      • 7.9 Singular Circuits* = 189
      • 8. SIMPLE RC AND RL CIRCUITS = 198
      • 8.1 Source-Free RC Circuit = 199
      • 8.2 Time Constants = 203
      • 8.3 Source-Free RL Circuit = 208
      • 8.4 Response to a Constant Forcing Function = 214
      • 8.5 The General Case = 218
      • 8.6 A Shortcut Procedure = 222
      • 8.7 The Unit Step Function = 226
      • 8.8 The Step Response = 231
      • 8.9 Application of Superposition = 238
      • 9. SECOND-ORDER CIRCUITS = 249
      • 9.1 Circuits with Two Storage Elements = 250
      • 9.2 Second-Order Equations = 253
      • 9.3 The Natural Response = 255
      • 9.4 Types of Natural Frequencies = 258
      • 9.5 The Forced Response = 262
      • 9.6 Excitation at a Natural Frequency = 266
      • 9.7 The Complete Response = 269
      • 9.8 The Parallel RLC Circuit = 274
      • 9.9 The Series RLC Circuit = 280
      • 9.10 Alternative Methods for Obtaining the Describing Equations* = 285
      • 10. SINUSOIDAL EXCITATION AND PHASORS = 298
      • 10.1 Properties of Sinusoids = 299
      • 10.2 An RL Circuit Example = 304
      • 10.3 An Alternative Method Using Complex Numbers = 306
      • 10.4 Complex Excitations = 310
      • 10.5 Phasors = 314
      • 10.6 Voltage-Current Relationships for Phasors = 317
      • 10.7 Impedance and Admittance = 323
      • 10.8 Kirchhoff'sLawsandlmpedanceCombinations = 327
      • 10.9 Phasor Circuits = 331
      • 11. AC STEADY-STATE ANALYSIS = 339
      • 11.1 Nodal Analysis = 340
      • 11.2 Mesh Analysis = 346
      • 11.3 Network Theorems = 349
      • 11.4 Phosor Diagrams = 356
      • 12. AC STEADY-STATE POWER = 369
      • 12.1 Average Power = 370
      • 12.2 Superposition and Power = 378
      • 12.3 RMS Values = 382
      • 12.4 Power Factor = 384
      • 12.5 Complex Power = 389
      • 12.6 Power Measurement = 394
      • 13. THREE-PHASE CIRCUITS = 401
      • 13.1 Single-Phase, Three-Wire Systems = 402
      • 13.2 Three-Phase Y-Y Systems = 408
      • 13.3 The Delta Connection = 415
      • 13.4 Y-A Transformations = 419
      • 13.5 Power Measurement = 424
      • 14. COMPLEX FREQUENCY AND NETWORK FUNCTIONS = 432
      • 14.1 The Damped Sinusoid = 433
      • 14.2 Complex Frequency and Generalized Phosors = 436
      • 14.3 Impedance and Admittance = 439
      • 14.4 Network Functions = 444
      • 14.5 Poles and Zeros = 448
      • 14.6 The Natural Response from the Network Function = 450
      • 14.7 Natural Frequencies* = 453
      • 14.8 Two-Port Networks = 455
      • 15. FREQUENCY RESPONSE = 467
      • 15.1 Amplitude and Phase Responses = 468
      • 15.2 Filters = 471
      • 15.3 Resonance = 475
      • 15.4 Bandposs Functions and Quality Factor = 478
      • 15.5 Use of Pole-Zero Plots = 482
      • 15.6 Scaling the Network Function = 485
      • 15.7 The Decibel = 488
      • 16. TRANSFORMERS = 500
      • 16.1 Mutual Inductance = 501
      • 16.2 Pnergy Storage = 511
      • 16.3 Circuits with Linear Transformers = 514
      • 16.4 Reflected impedance = 519
      • 16.5 The Ideal Transformer = 521
      • 16.6 Equivalent Circuits = 527
      • 17. FOURIER METHODS = 535
      • 17.1 The Trigonometric Fourier Series = 536
      • 17.2 Symmetry Properties = 543
      • 17.3 The Exponential Fourier Series = 547
      • 17.4 Response to Periodic Excitations = 550
      • 17.5 Frequency Spectra = 553
      • 17.6 The Fourier Transform = 555
      • 17.7 Fourier Transform operations = 559
      • 18. LAPLACE TRANSFORMS = 567
      • 18.1 Definition = 568
      • 18.2 Some Special Results = 571
      • 18.3 The inverse Transform = 576
      • 18.4 The Impulse Function = 581
      • 18.5 Applications to Differential Equations = 584
      • 18.6 The Transformed Circuit = 590
      • APPENDIX A DETERMINANTS AND CRAMER'S RULE = 599
      • APPENDIX B GAUSSIAN ELIMINATION = 604
      • APPENDIX C COMPLEX NUMBERS = 608
      • APPENDIX D EULER'S FORMULA = 615
      • APPENDIX E ANSWERS TO SELECTED ODD-NUMBERED PROBLEMS = 619
      • INDEX = 625
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