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Electronics Fundamentals: A Systems Approach [Kõva köide]

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  • Formaat: Hardback, 1088 pages, kõrgus x laius x paksus: 278x224x44 mm, kaal: 2300 g
  • Ilmumisaeg: 29-Jan-2014
  • Kirjastus: Pearson
  • ISBN-10: 0133143635
  • ISBN-13: 9780133143638
Teised raamatud teemal:
Electronics Fundamentals: A Systems ApproachSuurem pilt
  • Formaat: Hardback, 1088 pages, kõrgus x laius x paksus: 278x224x44 mm, kaal: 2300 g
  • Ilmumisaeg: 29-Jan-2014
  • Kirjastus: Pearson
  • ISBN-10: 0133143635
  • ISBN-13: 9780133143638
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780133143638.html
Märksõnad:

Electronics Fundamentals: A Systems Approach takes a broader view of fundamental circuits than most standard texts, providing relevance to basic theory by stressing applications of dc/ac circuits and basic solid state circuits in actual systems.

Part I DC CIRCUITS
1 Systems, Quantities, And Units
1(33)
1-1 The Electronics Industry
2(2)
1-2 Introduction to Electronic Systems
4(3)
1-3 Types of Circuits
7(3)
1-4 Scientific and Engineering Notation
10(6)
1-5 Units and Metric Prefixes
16(2)
1-6 Metric Unit Conversions
18(2)
1-7 Measured Numbers
20(3)
1-8 Electrical Safety
23(11)
2 Voltage, Current, And Resistance
34(48)
2-1 Atoms
35(2)
2-2 Electrical Charge
37(3)
2-3 Voltage
40(6)
2-4 Current
46(4)
2-5 Resistance
50(8)
2-6 The Electric Circuit
58(8)
2-7 Basic Circuit Measurements
66(16)
3 Ohm's Law, Energy, And Power
82(39)
3-1 Ohm's Law
83(4)
3-2 Application of Ohm's Law
87(5)
3-3 Energy and Power
92(4)
3-4 Power in an Electric Circuit
96(2)
3-5 The Power Rating of Resistors
98(3)
3-6 Energy Conversion and Voltage Drop in a Resistance
101(2)
3-7 Power Supplies and Batteries
103(3)
3-8 Introduction to Troubleshooting
106(15)
4 Series Circuits
121(52)
4-1 Resistors in Series
122(2)
4-2 Total Series Resistance
124(4)
4-3 Current in a Series Circuit
128(2)
4-4 Application of Ohm's Law
130(4)
4-5 Voltage Sources in Series
134(3)
4-6 Kirchhoff's Voltage Law
137(4)
4-7 Voltage Dividers
141(6)
4-8 Power in Series Circuits
147(2)
4-9 Voltage Measurements
149(3)
4-10 Troubleshooting
152(21)
5 Parallel Circuits
173(44)
5-1 Resistors in Parallel
174(3)
5-2 Total Parallel Resistance
177(5)
5-3 Voltage in a Parallel Circuit
182(3)
5-4 Application of Ohm's Law
185(3)
5-5 Kirchhoff's Current Law
188(5)
5-6 Current Dividers
193(4)
5-7 Power in Parallel Circuits
197(2)
5-8 Troubleshooting
199(18)
6 Series-Parallel Circuits
217(60)
6-1 Identifying Series-Parallel Relationships
218(4)
6-2 Analysis of Series-Parallel Resistive Circuits
222(7)
6-3 Voltage Dividers with Resistive Loads
229(5)
6-4 Loading Effect of a Voltmeter
234(2)
6-5 The Wheatstone Bridge
236(6)
6-6 Thevenin's Theorem
242(7)
6-7 The Maximum Power Transfer Theorem
249(3)
6-8 The Superposition Theorem
252(5)
6-9 Troubleshooting
257(20)
7 Magnetism And Electromagnetism
277(43)
7-1 The Magnetic Field
278(6)
7-2 Electromagnetism
284(6)
7-3 Electromagnetic Devices
290(6)
7-4 Magnetic Hysteresis
296(2)
7-5 Electromagnetic Induction
298(5)
7-6 DC Generators
303(4)
7-7 DC Motors
307(13)
Part II AC CIRCUITS
8 Introduction To Alternating Current And Voltage
320(62)
8-1 The Sinusoidal Waveform
321(5)
8-2 Voltage and Current Values of Sine Waves
326(4)
8-3 Angular Measurement of a Sine Wave
330(4)
8-4 The Sine Wave Formula
334(4)
8-5 Analysis of AC Circuits
338(4)
8-6 Alternators (AC Generators)
342(5)
8-7 AC Motors
347(3)
8-8 Nonsinusoidal Waveforms
350(7)
8-9 The Oscilloscope
357(6)
8-10 Signal Sources
363(19)
9 Capacitors
382(52)
9-1 The Basic Capacitor
383(7)
9-2 Types of Capacitors
390(5)
9-3 Series Capacitors
395(4)
9-4 Parallel Capacitors
399(2)
9-5 Capacitors in DC Circuits
401(9)
9-6 Capacitors in AC Circuits
410(7)
9-7 Capacitor Applications
417(17)
10 RC Circuits
434(54)
10-1 Sinusoidal Response of Series RC Circuits
435(1)
10-2 Impedance and Phase Angle of Series RC Circuits
436(2)
10-3 Analysis of Series RC Circuits
438(11)
10-4 Impedance and Phase Angle of Parallel RC Circuits
449(2)
10-5 Analysis of Parallel RC Circuits
451(4)
10-6 Analysis of Series-Parallel RC Circuits
455(5)
10-7 Power in RC Circuits
460(4)
10-8 Basic Applications
464(6)
10-9 Troubleshooting
470(18)
11 Inductors
488(37)
11-1 The Basic Inductor
489(6)
11-2 Types of Inductors
495(1)
11-3 Series and Parallel Inductors
496(3)
11-4 Inductors in DC Circuits
499(9)
11-5 Inductors in AC Circuits
508(6)
11-6 Inductor Applications
514(11)
12 RL Circuits
525(40)
12-1 Sinusoidal Response of RL Circuits
526(1)
12-2 Impedance and Phase Angle of Series RL Circuits
527(2)
12-3 Analysis of Series RL Circuits
529(8)
12-4 Impedance and Phase Angle of Parallel RL Circuits
537(3)
12-5 Analysis of Parallel RL Circuits
540(3)
12-6 Analysis of Series-Parallel RL Circuits
543(3)
12-7 Power in RL Circuits
546(4)
12-8 RL Filters
550(3)
12-9 Troubleshooting
553(12)
13 RLC Circuits And Resonance
565(54)
13-1 Impedance and Phase Angle of Series RLC Circuits
566(2)
13-2 Analysis of Series RLC Circuits
568(4)
13-3 Series Resonance
572(7)
13-4 Series Resonant Filters
579(8)
13-5 Parallel RLC Circuits
587(5)
13-6 Parallel Resonance
592(9)
13-7 Parallel Resonant Filters
601(6)
13-8 Resonant Circuit Applications
607(12)
14 Transformers
619(38)
14-1 Mutual Inductance
620(2)
14-2 The Basic Transformer
622(4)
14-3 Step-Up and Step-Down Transformers
626(4)
14-4 Loading the Secondary
630(2)
14-5 Reflected Load
632(2)
14-6 Impedance Matching
634(3)
14-7 Transformer Ratings and Characteristics
637(4)
14-8 Tapped and Multiple-Winding Transformers
641(5)
14-9 Troubleshooting
646(11)
15 Time Response Of Reactive Circuits
657(41)
15-1 The RC Integrator
658(1)
15-2 Response of RC Integrators to a Single Pulse
659(5)
15-3 Response of RC Integrators to Repetitive Pulses
664(5)
15-4 Response of RC Differentiators to a Single Pulse
669(5)
15-5 Response of RC Differentiators to Repetitive Pulses
674(3)
15-6 Response of RL Integrators to Pulse Inputs
677(5)
15-7 Response of RL Differentiators to Pulse Inputs
682(3)
15-8 Integrator and Differentiator Applications
685(3)
15-9 Troubleshooting
688(10)
Part III ELECTRONIC DEVICES
16 Diodes And Applications
698(63)
16-1 Introduction to Semiconductors
699(6)
16-2 The Diode
705(5)
16-3 Diode Characteristics
710(4)
16-4 Diode Rectifiers
714(11)
16-5 Power Supplies
725(6)
16-6 Special-Purpose Diodes
731(12)
16-7 Troubleshooting
743(18)
17 Transistors And Applications
761(64)
17-1 DC Operation of Bipolar Junction Transistors (BJTs)
762(4)
17-2 BJT Class A Amplifiers
766(13)
17-3 BJT Class B Amplifiers
779(5)
17-4 The BJT as a Switch
784(4)
17-5 DC Operation of Field-Effect Transistors (FETs)
788(7)
17-6 FET Amplifiers
795(6)
17-7 Feedback Oscillators
801(6)
17-8 Troubleshooting
807(18)
18 The Operational Amplifier
825(40)
18-1 Introduction to the Operational Amplifier
826(2)
18-2 The Differential Amplifier
828(7)
18-3 Op-Amp Parameters
835(6)
18-4 Negative Feedback
841(2)
18-5 Op-Amp Configurations with Negative Feedback
843(5)
18-6 Op-Amp Resistances
848(4)
18-7 Troubleshooting
852(13)
19 Basic Op-Amp Circuits
865(48)
19-1 Comparators
866(4)
19-2 Summing Amplifiers
870(4)
19-3 Integrators and Differentiators
874(6)
19-1 Oscillators
880(6)
19-5 Active Filters
886(9)
19-6 Voltage Regulators
895(18)
20 Special-Purpose Op-Amp Circuits
913(35)
20-1 Instrumentation Amplifiers
914(4)
20-2 Isolation Amplifiers
918(6)
20-3 Operational Transconductance Amplifiers (OTAs)
924(6)
20-4 Active Diode Circuits
930(6)
20-5 Current Sources and Converters
936(12)
21 Measurement, Conversion, And Control
948(43)
21-1 Temperature Measurement
949(10)
21-2 Strain, Pressure, and Flow Rate Measurements
959(6)
21-3 Motion Measurement
965(3)
21-4 Sample-and-Hold Circuits
968(4)
21-5 Analog-to-Digital Conversion
972(4)
21-6 Power-Control Circuits
976(15)
APPENDICES
A Table of Standard Resistor Values
991(2)
B Capacitor Color Coding and Marking
993(4)
C Norton's Theorem and Millman's Theorem
997(6)
D Field-Programmable Analog Arrays (FPAAs)
1003(10)
E NI Multisim for Circuit Simulation
1013(6)
Answers To Odd-Numbered Problems 1019(12)
Glossary 1031(10)
Index 1041