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Essentials of Electrical and Computer Engineering 2nd edition [Pehme köide]

(Auburn University),
  • Formaat: Paperback / softback, 560 pages, kõrgus x laius x paksus: 252x201x23 mm, kaal: 953 g
  • Ilmumisaeg: 19-Sep-2024
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1119832829
  • ISBN-13: 9781119832829
Teised raamatud teemal:
Essentials of Electrical and Computer Engineering 2nd editionSuurem pilt
  • Formaat: Paperback / softback, 560 pages, kõrgus x laius x paksus: 252x201x23 mm, kaal: 953 g
  • Ilmumisaeg: 19-Sep-2024
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1119832829
  • ISBN-13: 9781119832829
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781119832829.html
Märksõnad:
Essentials of Electrical and Computer Engineering is for an introductory course or course sequence for nonmajors, focused on the essentials of electrical and computer engineering that are required for all engineering students, and to pass the electrical engineering portion of the Fundamentals of Engineering (FE) exam. The text gently yet thoroughly introduces students to the full spectrum of fundamental topics, and the modular presentation gives instructors great flexibility.

Special chapters and sections not typically found in nonmajors books:





The Electric Power System explains how the components of the Grid work together to produce and deliver electric power. (Ch 8) Load line analysis is integrated with small-signal analysis, providing wide application for enhancing students understanding of transistor and circuit operation and the options for analysis. (Ch 9) Instrumentation looks at how electrical measurements support the analysis and development of engineering systems. (Ch 13) 

Modern electronic devices and applications are presented in way useful for all majors, at a level presuming no prior knowledge.

Technologies such as MEMS (Microelectromechanical Systems) are included to illustrate how modern technologies are interdisciplinary.

This text may also be useful for self-study readers learning the fundamentals of electrical and computer engineering.
About the Authors xiii
1 Introduction
1(17)
Fundamental Concepts
1(5)
Sources
6(2)
Tellegen's Theorem
8(1)
Problems
9(9)
2 The Basic Laws of Circuit Analysis
18(39)
Introduction
18(1)
Ohm's Law
18(4)
Kirchhoff's Laws
22(4)
Single-Loop Circuits
26(3)
Voltage Division
29(1)
Single Node-Pair Circuits
30(2)
Current Division
32(1)
Resistor Combinations
33(5)
Simple Network Analysis
38(3)
Circuits with Dependent Sources
41(2)
Problems
43(14)
3 Circuit Analysis Techniques
57(37)
Nodal Analysis
57(11)
Loop/Mesh Analysis
68(5)
Nodal Analysis versus Mesh/Loop Analysis
73(6)
Superposition
79(1)
Thevenin's Theorem
80(3)
Maximum Power Transfer
83(3)
Problems
86(8)
4 Transient Analysis
94(41)
Introduction
94(1)
Storage Elements
94(5)
Capacitors
94(3)
Inductors
97(2)
Capacitor/Inductor Characteristics
99(1)
First-Order Transient Circuits
99(15)
Second-Order Transient Circuits
114(9)
Problems
123(12)
5 AC Steady-State Analysis
135(35)
The AC Forcing Function
135(3)
The Network Response to Sinusoidal Forcing Functions
138(3)
Phasor Relationships for the RLC Circuit Components
141(1)
Impedance and Admittance
142(7)
Analysis Techniques
149(10)
Problems
159(11)
6 Variable-frequency Network Characteristics
170(36)
Sinusoidal Frequency Response
170(4)
Passive Filter Networks
174(8)
Low-Pass Filters
174(1)
High-Pass Filters
175(1)
Bandpass Filters
176(2)
Band Elimination/Rejection Filters
178(4)
Resonance
182(16)
Series Resonance
184(6)
Parallel Resonance
190(8)
Problems
198(8)
7 Single-phase Steady-state Power Analysis
206(32)
Instantaneous Power
206(2)
Average Power
208(4)
Maximum Average Power Transfer
212(2)
RMS Values
214(3)
Power Factor
217(1)
Complex Power
218(6)
Power Factor Correction
224(2)
Problems
226(12)
8 The Electric Power System
238(35)
The Electric Power System Structure
238(6)
Generation
238(3)
Transformation -- Low Voltage to High Voltage
241(1)
Transmission
241(1)
Transformation---High Voltage to Low Voltage
241(1)
Distribution
242(2)
Magnetic Circuit Fundamentals
244(3)
Generators
247(2)
Power Transmission
249(9)
Electric/Magnetic Circuit Analogy
249(1)
Mutual Inductance
250(5)
Ideal Transformers
255(3)
Three-Phase Circuits
258(6)
The Balanced Wye-Wye Connection
260(2)
The Balanced Wye-Delta Connection
262(1)
Three-Phase Power
263(1)
Problems
264(9)
9 Diodes, Semiconductors and Applications
273(31)
Introduction to Modern Electronics
273(1)
The Diode and its Basic Characteristics
273(1)
Introduction to Semiconductors
274(1)
How a p-n Junction Diode Works
275(4)
The Ideal Diode Model
277(2)
Rectifier Circuits and Power Supplies
279(4)
Half-Wave Rectifier Circuits
280(1)
Full-Wave Rectifier Circuits
281(2)
Power Supply Filters
283(1)
Clipping and Clamping Circuits
284(2)
Real Silicon Diodes
286(3)
Special-Purpose Diodes
289(1)
Light Emitting Diodes (LEDs)
289(1)
Schottky Diodes
290(1)
Introduction to Load Line Analysis
290(1)
Problems
291(13)
10 Operational Amplifiers and Applications
304(33)
Introduction
304(1)
Differential Amplifiers
305(1)
The Ideal OP Amp
306(2)
Basic Operational Amplifier Configurations
308(10)
The Noninverting OP Amp
308(1)
The Unity-Gain Buffer
309(1)
The Inverting OP Amp
310(1)
The Difference Amplifier or Differential Amplifier
311(2)
The Summing OP Amp
313(1)
Current-to-Voltage Converter
314(1)
The Integrator
315(2)
The Differentiator
317(1)
Application Circuits with Frequency Dependence (Filters)
318(4)
Low-Pass Filters
319(1)
High-Pass Filters
320(1)
Bandpass Filters
321(1)
Multistage Amplifier Circuits
322(1)
Problems
323(14)
11 Analog Electronics
337(46)
Introduction
337(1)
Transistors
337(2)
Metal-Oxide-Semiconductor Field-Effect Transistor (MOSFET)
339(15)
MOSFET Device Operation
341(1)
The Output Characteristic Curves
342(1)
Operational Modes
342(1)
MOSFET Biasing Techniques
343(5)
Small-Signal Analysis of MOSFET Circuits
348(6)
Bipolar Junction Transistors
354(17)
BJT Structure
355(1)
BJT Device Operation
356(2)
The Output Characteristic Curves for BJTs
358(4)
BJT Biasing Techniques
362(3)
Small-Signal Analysis
365(6)
Problems
371(12)
12 Digital Electronics and Logic Circuits
383(44)
Introduction
383(1)
The Binary Number System
383(2)
Boolean Algebra
385(8)
Boolean Functions in Canonical Form
386(3)
Boolean Function Minimization
389(4)
Logic Gates for Function Realization
393(2)
Implementation of Logic Gates with Circuits
395(7)
NMOS
396(2)
CMOS (Complementary Metal-Oxide-Semiconductor)
398(1)
The CMOS Inverter
399(1)
CMOS NAND Gates and NOR Gates
400(2)
Combinational Logic Circuits
402(4)
Sequential Logic Circuits
406(11)
State Diagrams and State Tables
407(1)
Memory Devices
408(1)
Analyzing Synchronous Sequential Circuits
409(3)
Designing Synchronous Sequential Circuits
412(5)
Problems
417(10)
13 Electrical Measurements and Instrumentation
427(40)
Basic Measurement Devices
427(18)
Digital Multimeters
427(14)
Oscilloscopes
441(4)
Measurement Systems
445(1)
Sensors/Transducers
445(1)
Signal Conditioning
446(5)
Amplification
446(1)
Filtering
447(4)
Process Controller
451(5)
Analog-to-Digital (A/D) Conversion
451(2)
Processor
453(1)
Digital-to-Analog Conversion
453(3)
Application Circuits
456(2)
Problems
458(9)
14 DC Machines
467(26)
Introduction
467(1)
A Linear Machine
467(3)
A Simple Rotating Machine
470(3)
The Basic DC Machine
473(3)
Equivalent Circuits and Analysis
476(13)
DC Machine Applications
489(1)
Problems
490(3)
15 AC Machines
493(1)
Introduction
493(1)
The Revolving Magnetic Field
493(2)
AC Polyphase Machines
495(2)
The Polyphase Induction Machine: Balanced Operation
497(6)
Basic Principles of Operation
497(1)
The Equivalent Circuit
498(5)
The Polyphase Synchronous Machine: Balanced Operation
503(9)
Basic Principles of Operation
503(1)
The Nonsalient Synchronous Machine Equivalent Circuit
504(8)
AC Machine Applications
512(1)
Problems
512
Appendix A Complex Numbers
1(3)
Appendix B Load Line Analysis
4(6)
Appendix C The Zener or Avalanche Diode and Problems
10(6)
Circuit Model of Zener Diode
10(2)
Load Line Analysis of Zener Diode Circuits
12(3)
Problems
15(1)
Appendix D Implementation of Practical Electronic Circuits
16(1)
IC Packages and Building Real Circuits
16(1)
Operational Amplifiers (OP AMPS)
16(2)
Instrumentation and Differential Amplifiers
18(1)
Oscillators (Signal Generators)
18(1)
Current Measurements
19(1)
Power Measurements
20(1)
Programmable Logic Controllers (PLCS)
20
Index 1