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 |  موضوع: كتاب Principles of Electric Circuits - Electron Flow Version الأحد 24 مايو 2020, 12:37 am | |
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Principles of Electric Circuits - Electron Flow Version
Ninth Edition
Thomas L. Floyd
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Contents
Quantities and Units
1-1 Units of Measurement 2
1-2 Scientific Notation 4
1-3 Engineering Notation and Metric Prefixes 7
1-4 Metric Unit Conversions 10
1-5 Measured Numbers 12
wM Voltage, Current, and Resistance 20
2-1 Atomic Structure 21
2-2 Electrical Charge 25
2-3 Voltage 27
2-4 Current 33
2-5 Resistance 36
2-6 The Electric Circuit 44
2-7 Basic Circuit Measurements 52
2-8 Electrical Safety 58
Application Activity 61
KM Ohm's Law 75
The Relationship ofCurrent, Voltage,
and Resistance 76
Current Calculations 79
Voltage Calculations 83
Resistance Calculations 85
Introduction to Troubleshooting 87
Application Activity 90
Energy and Power 100
Energy and Power 101
Power in an Electric Circuit 103
Resistor Power Ratings 105
Energy Conversion and Voltage
Drop in Resistance 109
4-5 Power Supplies and Batteries 110
Application Activity 113
Series Circuits 122
5-1 Resistors in Series 123
5-2 Total Series Resistance 125
5-3 Current in a Series Circuit 129
5-4 Application of Ohm's Law 131
5-5 Voltage Sources in Series 135
5-6 Kirchhoff's Voltage Law 138
5-7 Voltage Dividers 142
5-8 Power in Scries Circuits 150
5-9 Voltage Measurements 152
5-10 Troubleshooting 156
Application Activity 160
?3 Parallel Circuits
6-1 Resistors in Parallel 179
6-2 Voltage in a Parallel Circuit 182
6-3 Kirchhoff's Current Law 184
6-4 Total Parallel Resistance 188
6-5 Application of Ohm's Law 194
6-6 Current Sources in Parallel 197
6-7 Current Dividers 198
6-8 Power in Parallel Circuits 202
6-9 Parallel Circuit Applications 204
6-10 Troubleshooting 208
Application Activity 212
Wm Series-Parallel Circuits
Identifying Series-Parallel Relationships 232
Analysis of Series-Parallel Resistive Circuits 237
Voltage Dividers with Resistive Loads 245
Loading Effect of a Voltmeter 249
Ladder Networks 252
The Whealstone Bridge 258
Troubleshooting 263
Application Activity 267
Circuit Theorems and Conversions 285
8-1 The DC Voltage Source 286
8-2 The Current Source 288
8-3 Source Conversions 290
8-4 The Superposition Theorem 293
8-5 Thevenin's Theorem 300
8-6 Norton's Theorem 312
8-7 Maximum Power Transfer Theorem 316XIV CONTENTS
8-8 Delta-to-Wye (A-to-Y) and Wye-lo-Delta (Y-to-A)
Conversions 319
Application Activity 325
Branch, Loop, and Node Analyses 340
Simultaneous Equations in Circuit Analysis 341
Branch Current Method 350
Loop Current Method 353
Node Voltage Method 359
Application Activity 366
Magnetism and Electromagnefism 376
The Magnetic Field 377
Electromagnelism 383
Electromagnetic Devices 389
Magnetic Hysteresis 395
Electromagnetic Induction 397
The DC Generator 402
The DC Motor 407
Application Activity 410
Introduction to Alternating Current
and Voltage 420
The Sinusoidal Waveform 421
Sinusoidal Voltage and Current Values 426
Angular Measurement ofa Sine Wave 430
The Sine Wave Formula 434
Introduction to Phasors 436
Analysis ofAC Circuits 442
The Alternator (AC Generator) 447
The AC Motor 451
Nonsinusoidal Waveforms 454
The Oscilloscope 460
Application Activity 466
Capacitors 484
The Basic Capacitor 485
Types of Capacitors 491
Scries Capacitors 497
Parallel Capacitors 501
Capacitors in DC Circuits 503
Capacitors in AC Circuits 514
Capacitor Applications 522
Switched-Capacitor Circuits 526
Application Activity 529
Inductors 544
13-1 The Basic Inductor 545
13-2 Types of Inductors 551
13-3 Series and Parallel Inductors 552
13-4 Inductors in DC Circuits 554
13-5 Inductors in AC Circuits 564
13-6 Inductor Applications 571
Application Activity 573
Transformers 584
14-1 Mutual Inductance 585
14-2 The Basic Transformer 586
14-3 Step-Up and Step-Down Transformers 590
14-4 Loading the Secondary 593
14-5 Reflected Load 595
14-6 Impedance Matching 597
14-7 Transformer Ratings and Characteristics 600
14-8 Tapped and Multiple-Winding Transformers 603
14-9 Troubleshooting 609
Application Activity 611
RC Circuits 623
The Complex Number System 624
Part 1: Series Circuits 634
Sinusoidal Response of Series RC Circuits 634
Impedance of Series RC Circuits 635
Analysis of Series RC Circuits 638
Part 2: Parallel Circuits 650
Impedance and Admittance of Parallel
RC Circuits 650
Analysis of Parallel RC Circuits 653
Part 3: Series-Parallel Circuits 659
Analysis ofSeries-Parallel RC Circuits 659
Part 4: Special Topics 666
Power in RC Circuits 666
Basic Applications 670
Troubleshooting 676
Application Activity 682
RL Circuits 701
Part 1: Series Circuits 702
16-1 Sinusoidal Response of RL Circuits 702
16-2 Impedance of Scries RL Circuits 703
16-3 Analysis ofSeries RL Circuits 705
Part 2: Parallel Circuits 715
16-4 Impedance and Admittance of Parallel
RL Circuits 715
16-5 Analysis ofParallel RL Circuits 718
Part 3: Series-Parallel Circuits 722
16-6 Analysis ofSeries-Parallel RL Circuits 722
Part 4: Special Topics 726
16-7 Power in RL Circuits 726
16-8 Basic Applications 729
16-9 Troubleshooting 733
Application Activity 738 Contents xv
RLC Circuits and Resonance 751
Part 1: Series Circuits 752
Impedance of Series RLC Circuits 752
Analysis of Series RLC Circuits 754
Series Resonance 758
Part 2: Parallel Circuits 765
Impedance of Parallel RLC Circuits 765
Analysis of Parallel RLC Circuits 767
Parallel Resonance 770
Part 3: Series-Parallel RiC Circuits 774
Analysis of Series-Parallel RLC Circuits 774
Part 4: Special Topics 782
Bandwidth of Resonant Circuits 782
Applications 786
Application Activity 790
Passive Filters 803
(EL
Low-Pass Filters 804
High-Pass Filters 811
Band-Pass Filters 815
Band-Stop Filters 820
Application Activity 824
Circuit Theorems in AC Analysis 834
19-1 The Superposition Theorem 835
19-2 Thevenin's Theorem 840
19-3 Norton's Theorem 850
19-4 Maximum Power Transfer Theorem 854
Application Activity 858
Time Response of Reactive Circuits 867
20-1 The RC Integrator 868
20-2 Response of an RC Integrator to a Single Pulse 869
20-3 Response of RC Integrators to Repetitive
Pulses 874
20-4 Response of an RC Differentiator
to a Single Pulse 879
20-5 Response of RC Differentiators
to Repetitive Pulses 884
20-6 Response of RL Integrators to Pulse Inputs 886
20-7 Response of RL Differentiators to Pulse Inputs 891
20-8 Relationship of Time Response to Frequency
Response 895
20-9 Troubleshooting 898
Application Activity 901
Three-Phase Systems in Power
Applications 913
21-1 Generators in Power Applications 914
21-2 Types ofThree-Phase Generators 917
21-3 Three-Phase Source/Load Analysis 922
21-4 Three-Phase Power 929
APPENDICES
A Table of Standard Resistor Values 937
B Derivations 938
C Capacitor label Coding 943
D Nl Multisim for Circuit Simulation 947
Answers to Odd-Numbered Problems 952
Glossary 967
Index 973
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