Electrical Engineering: Principles And Applications

Practical Applications Of Electrical Engineering Principles Vi -- Part 1 Circuits 1 -- 1.1 Overview Of Electrical Engineering 3 -- 1.2 Circuits, Currents, And Voltages 7 -- 1.3 Power And Energy 15 -- 1.4 Kirchhoff's Current Law 18 -- 1.5 Kirchhoff's Voltage Law 21 -- 1.6 Introduction To Circuit Elements 24 -- 1.7 Introduction To Circuits 33 -- 2 Resistive Circuits 43 -- 2.1 Resistances In Series And Parallel 44 -- 2.2 Network Analysis By Using Series And Parallel Equivalents 48 -- 2.3 Voltage-divider And Current-divider Circuits 52 -- 2.4 Node-voltage Analysis 57 -- 2.5 Mesh-current Analysis 72 -- 2.6 Thevenin And Norton Equivalent Circuits 80 -- 2.7 Superposition Principle 93 -- 2.8 Wheatstone Bridge 96 -- 3 Inductance And Capacitance 109 -- 3.1 Capacitance 110 -- 3.2 Capacitances In Series And Parallel 119 -- 3.3 Physical Characteristics Of Capacitors 120 -- 3.4 Inductance 124 -- 3.5 Inductances In Series And Parallel 130 -- 3.6 Practical Inductors 131 -- 3.7 Mutual Inductance 133 -- 4 Transients 142 -- 4.1 First-order Rc Circuits 143 -- 4.2 Dc Steady State 147 -- 4.3 Rl Circuits 149 -- 4.4 Rc And Rl Circuits With General Sources 154 -- 4.5 Second-order Circuits 161 -- 5 Steady-state Sinusoidal Analysis 181 -- 5.1 Sinusoidal Currents And Voltages 182 -- 5.2 Phasors 187 -- 5.3 Complex Impedances 193 -- 5.4 Circuit Analysis With Phasors And Complex Impedances 198 -- 5.5 Power In Ac Circuits 204 -- 5.6 Thevenin And Norton Equivalent Circuits 217 -- 5.7 Balanced Three-phase Circuits 223 -- 6 Frequency Response, Bode Plots, And Resonance 244 -- 6.1 Fourier Analysis, Filters, And Transfer Functions 245 -- 6.2 First-order Lowpass Filters 254 -- 6.3 Decibels, The Cascade Connection, And Logarithmic Frequency Scales 259 -- 6.4 Bode Plots 264 -- 6.5 First-order Highpass Filters 267 -- 6.6 Series Resonance 271 -- 6.7 Parallel Resonance 277 -- 6.8 Ideal And Second-order Filters 280 -- 6.9 Digital Signal Processing 286 -- Part 2 Digital Systems 307 -- 7 Logic Circuits 308 -- 7.1 Basic Logic Circuit Concepts 309 -- 7.2 Representation Of Numerical Data In Binary Form 312 -- 7.3 Combinatorial Logic Circuits 320 -- 7.4 Synthesis Of Logic Circuits 329 -- 7.5 Minimization Of Logic Circuits 336 -- 7.6 Sequential Logic Circuits 339 -- 8 Microcomputers 356 -- 8.1 Computer Organization 357 -- 8.2 Memory Types 360 -- 8.3 Digital Process Control 363 -- 8.4 Motorola 68hc11/12 366 -- 8.5 Instruction Set And Addressing Modes For The 68hc11 372 -- 8.6 Assembly-language Programming 381 -- 9 Computer-based Instrumentation Systems 390 -- 9.1 Measurement Concepts And Sensors 391 -- 9.2 Signal Conditioning 396 -- 9.3 Analog-to-digital Conversion 402 -- 9.4 Labview 405 -- Part 3 Electronics 421 -- 10 Diodes 422 -- 10.1 Basic Diode Concepts 423 -- 10.2 Load-line Analysis Of Diode Circuits 427 -- 10.3 Zener-diode Voltage-regulator Circuits 429 -- 10.4 Ideal-diode Model 434 -- 10.5 Piecewise-linear Diode Models 436 -- 10.6 Rectifier Circuits 440 -- 10.7 Wave-shaping Circuits 444 -- 10.8 Linear Small-signal Equivalent Circuits 450 -- 11 Amplifiers: Specifications And External Characteristics 465 -- 11.1 Basic Amplifier Concepts 466 -- 11.2 Cascaded Amplifiers 472 -- 11.3 Power Supplies And Efficiency 475 -- 11.4 Additional Amplifier Models 478 -- 11.5 Importance Of Amplifier Impedances In Various Applications 482 -- 11.6 Ideal Amplifiers 484 -- 11.7 Frequency Response 486 -- 11.8 Linear Waveform Distortion 491 -- 11.9 Pulse Response 495 -- 11.10 Transfer Characteristics And Nonlinear Distortion 499 -- 11.11 Differential Amplifiers 502 -- 11.12 Offset Voltage, Bias Current, And Offset Current 506 -- 12 Field-effect Transistors 521 -- 12.1 Nmos And Pmos Transistors 522 -- 12.27 Load-line Analysis Of A Simple Nmos Amplifier 530 -- 12.3 Bias Circuits 533 -- 12.4 Small-signal Equivalent Circuits 536 -- 12.5 Common-source Amplifiers 541 -- 12.6 Source Followers 545 -- 12.7 Cmos Logic Gates 550 -- 13 Bipolar Junction Transistors 559 -- 13.1 Current And Voltage Relationships 560 -- 13.2 Common-emitter Characteristics 563 -- 13.3 Load-line Analysis Of A Common-emitter Amplifier 565 -- 13.4 Pnp Bipolar Junction Transistors 572 -- 13.5 Large-signal Dc Circuit Models 574 -- 13.6 Large-signal Dc Analysis Of Bjt Circuits 577 -- 13.7 Small-signal Equivalent Circuits 584 -- 13.8 Common-emitter Amplifiers 588 -- 13.9 Emitter Followers 593 -- 14 Operational Amplifiers 607 -- 14.1 Ideal Operational Amplifiers 608 -- 14.2 Summing-point Constraint 610 -- 14.3 Inverting Amplifiers 610 -- 14.4 Noninverting Amplifiers 617 -- 14.5 Design Of Simple Amplifiers 620 -- 14.6 Op-amp Imperfections In The Linear Range Of Operation 626 -- 14.7 Nonlinear Limitations 630 -- 14.8 Dc Imperfections 635 -- 14.9 Differential And Instrumentation Amplifiers 640 -- 14.10 Integrators And Differentiators 642 -- 14.11 Active Filters 645 -- Part 4 Electromechanics 661 -- 15 Magnetic Circuits And Transformers 662 -- 15.1 Magnetic Fields 663 -- 15.2 Magnetic Circuits 673 -- 15.3 Inductance And Mutual Inductance 679 -- 15.4 Magnetic Materials 683 -- 15.5 Ideal Transformers 686 -- 15.6 Real Transformers 695 -- 16 Dc Machines 708 -- 16.1 Overview Of Motors 709 -- 16.2 Principles Of Dc Machines 718 -- 16.3 Rotating Dc Machines 724 -- 16.4 Shunt-connected And Separately Excited Dc Motors 731 -- 16.5 Series-connected Dc Motors 736 -- 16.6 Speed Control Of Dc Motors 740 -- 17 Ac Machines 753 -- 17.1 Three-phase Induction Motors 754 -- 17.2 Equivalent-circuit And Performance Calculations For Induction Motors 762 -- 17.3 Synchronous Machines 772 -- 17.4 Single-phase Motors 785 -- 17.5 Stepper Motors 789 -- A Complex Numbers 797 -- B Nominal Values And The Color Code For Resistors 806 -- C Preparing For The Fundamentals Of Engineering Exam 808 -- D Computer-aided Circuit Analysis 814 -- D.1 Analysis Of Dc Circuits 814 -- D.2 Transient Analysis 823 -- D.3 Frequency Response 827 -- E Software Installation 833. Allan R. Hambley. Includes Bibliographical References And Index. System Requirements For Accompanying Computer Disc: Windows 2000/nt/me/9x.