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Electrical Engineering : Principles and Applications,9780130610706
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Electrical Engineering : Principles and Applications

by
Edition:
2nd
ISBN13:

9780130610706

ISBN10:
0130610704
Format:
Hardcover
Pub. Date:
1/1/2002
Publisher(s):
PRENTICE HALL
List Price: $119.00
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Summary

Textbook for electrical engineering students, offering updated coverage of the basic tenets of the field, from circuits and digital systems to electronics and electromechanics. Features 2 CD-ROMs packed with utilities, including software. System requirements not listed. Previous edition: c1996. DLC: Electric engineering.

Author Biography

Allan R. Hambley received the B.S. degree from Michigan Technological University, the M.S. degree from Illinois Institute of Technology, and the Ph.D. degree from Worcester Polytechnic Institute. He has worked in industry for Hazeltine Research Inc., Warwick Electronics, and Harris Government Systems. Currently, he is a Professor of Electrical and Computer Engineering at Michigan Tech. The Michigan Tech chapter of Eta Kappa Nu has twice named him the Outstanding Electrical Engineering Teacher of the Year. He has won the National Technological University Outstanding Instructor Award six times for his courses in communication systems. The American Society for Engineering Education presented him with the 1998 Meriam/Wiley Distinguished Author Award for his book, Electronics. His hobbies include fishing, boating in remote areas of Lake Superior, and gardening.

Table of Contents

Practical Applications of Electrical Engineering Principles vi
Contents vii
Preface xi
PART ONE Circuits 1(306)
Introduction
2(41)
Overview of Electrical Engineering
3(4)
Circuits, Currents, and Voltages
7(8)
Power and Energy
15(3)
Kirchhoff's Current Law
18(3)
Kirchhoff's Voltage Law
21(3)
Introduction to Circuit Elements
24(9)
Introduction to Circuits
33(10)
Summary
36(1)
Problems
37(6)
Resistive Circuits
43(66)
Resistances in Series and Parallel
44(4)
Network Analysis by Using Series and Parallel Equivalents
48(4)
Voltage-Divider and Current-Divider Circuits
52(5)
Node-Voltage Analysis
57(15)
Mesh-Current Analysis
72(8)
Thevenin and Norton Equivalent Circuits
80(13)
Superposition Principle
93(3)
Wheatstone Bridge
96(13)
Summary
99(1)
Problems
100(9)
Inductance and Capacitance
109(33)
Capacitance
110(9)
Capacitances in Series and Parallel
119(1)
Physical Characteristics of Capacitors
120(4)
Inductance
124(6)
Inductances in Series and Parallel
130(1)
Practical Inductors
131(2)
Mutual Inductance
133(9)
Summary
135(1)
Problems
136(6)
Transients
142(39)
First-Order RC Circuits
143(4)
DC Steady State
147(2)
RL Circuits
149(5)
RC and RL Circuits with General Sources
154(7)
Second-Order Circuits
161(20)
Summary
175(1)
Problems
176(5)
Steady-State Sinusoidal Analysis
181(63)
Sinusoidal Currents and Voltages
182(5)
Phasors
187(6)
Complex Impedances
193(5)
Circuit Analysis with Phasors and Complex Impedances
198(6)
Power in AC Circuits
204(13)
Thevenin and Norton Equivalent Circuits
217(6)
Balanced Three-Phase Circuits
223(21)
Summary
235(2)
Problems
237(7)
Frequency Response, Bode Plots, and Resonance
244(63)
Fourier Analysis, Filters, and Transfer Functions
245(9)
First-Order Lowpass Filters
254(5)
Decibels, the Cascade Connection, and Logarithmic Frequency Scales
259(5)
Bode Plots
264(3)
First-Order Highpass Filters
267(4)
Series Resonance
271(6)
Parallel Resonance
277(3)
Ideal and Second-Order Filters
280(6)
Digital Signal Processing
286(21)
Summary
297(1)
Problems
298(9)
PART TWO Digital Systems 307(114)
Logic Circuits
308(48)
Basic Logic Circuit Concepts
309(3)
Representation of Numerical Data in Binary Form
312(8)
Combinatorial Logic Circuits
320(9)
Synthesis of Logic Circuits
329(7)
Minimization of Logic Circuits
336(3)
Sequential Logic Circuits
339(17)
Conclusions
351(1)
Summary
351(1)
Problems
352(4)
Microcomputers
356(34)
Computer Organization
357(3)
Memory Types
360(3)
Digital Process Control
363(3)
The Motorola 68HC11/12
366(6)
The Instruction Set and Addressing Modes for the 68HC11
372(9)
Assembly-Language Programming
381(9)
Summary
386(1)
Problems
387(3)
Computer-Based Instrumentation Systems
390(31)
Measurement Concepts and Sensors
391(5)
Signal Conditioning
396(6)
Analog-to-Digital Conversion
402(3)
LabVIEW
405(16)
Summary
417(1)
Problems
418(3)
PART THREE Electronics 421(240)
Diodes
422(43)
Basic Diode Concepts
423(4)
Load-Line Analysis of Diode Circuits
427(2)
Zener-Diode Voltage-Regulator Circuits
429(5)
Ideal-Diode Model
434(2)
Piecewise-Linear Diode Models
436(4)
Rectifier Circuits
440(4)
Wave-Shaping Circuits
444(6)
Linear Small-Signal Equivalent Circuits
450(15)
Summary
456(1)
Problems
457(8)
Amplifiers: Specifications and External Characteristics
465(56)
Basic Amplifier Concepts
466(6)
Cascaded Amplifiers
472(3)
Power Supplies and Efficiency
475(3)
Additional Amplifier Models
478(4)
Importance of Amplifier Impedances in Various Applications
482(2)
Ideal Amplifiers
484(2)
Frequency Response
486(5)
Linear Waveform Distortion
491(4)
Pulse Response
495(4)
Transfer Characteristic and Nonlinear Distortion
499(3)
Differential Amplifiers
502(4)
Offset Voltage, Bias Current, and Offset Current
506(15)
Summary
512(1)
Problems
512(9)
Field-Effect Transistors
521(38)
NMOS and PMOS Transistors
522(8)
Load-Line Analysis of a Simple NMOS Amplifier
530(3)
Bias Circuits
533(3)
Small-Signal Equivalent Circuits
536(5)
Common-Source Amplifiers
541(4)
Source Followers
545(5)
CMOS Logic Gates
550(9)
Summary
554(1)
Problems
554(5)
Bipolar Junction Transistors
559(48)
Current and Voltage Relationships
560(3)
Common-Emitter Characteristics
563(2)
Load-Line Analysis of a Common-Emitter Amplifier
565(7)
pnp Bipolar Junction Transistors
572(2)
Large-Signal DC Circuit Models
574(3)
Large-Signal DC Analysis of BJT Circuits
577(7)
Small-Signal Equivalent Circuits
584(4)
Common-Emitter Amplifiers
588(5)
Emitter Followers
593(14)
Summary
599(1)
Problems
599(8)
Operational Amplifiers
607(54)
Ideal Operational Amplifiers
608(2)
Summing-Point Constraint
610(1)
Inverting Amplifiers
610(7)
Noninverting Amplifiers
617(3)
Design of Simple Amplifiers
620(6)
Op-Amp Imperfections in the Linear Range of Operation
626(4)
Nonlinear Limitations
630(5)
DC Imperfections
635(5)
Differential and Instrumentation Amplifiers
640(2)
Integrators and Differentiators
642(3)
Active Filters
645(16)
Summary
650(1)
Problems
651(10)
PART FOUR Electromechanics 661(136)
Magnetic Circuits and Transformers
662(46)
Magnetic Fields
663(10)
Magnetic Circuits
673(6)
Inductance and Mutual Inductance
679(4)
Magnetic Materials
683(3)
Ideal Transformers
686(9)
Real Transformers
695(13)
Summary
699(1)
Problems
700(8)
DC Machines
708(45)
Overview of Motors
709(9)
Principles of DC Machines
718(6)
Rotating DC Machines
724(7)
Shunt-Connected and Separately Excited DC Motors
731(5)
Series-Connected DC Motors
736(4)
Speed Control of DC Motors
740(13)
Summary
746(1)
Problems
747(6)
AC Machines
753(44)
Three-Phase Induction Motors
754(8)
Equivalent-Circuit and Performance Calculations for Induction Motors
762(10)
Synchronous Machines
772(13)
Single-Phase Motors
785(4)
Stepper Motors
789(8)
Summary
790(1)
Problems
791(6)
A Complex Numbers 797(9)
Summary
805(1)
Problems
805(1)
B Nominal Values and the Color Code for Resistors 806(2)
C Preparing for the Fundamentals of Engineering Exam 808(6)
D Computer-Aided Circuit Analysis 814(19)
Analysis of DC Circuits
814(9)
Transient Analysis
823(4)
Frequency Response
827(3)
Other Examples
830(3)
E Software Installation 833(2)
Index 835


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