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Electronic Devices (Electron Flow Version) 10th edition [Kõva köide]

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  • Formaat: Hardback, 992 pages, kõrgus x laius x paksus: 100x100x100 mm, kaal: 100 g
  • Ilmumisaeg: 06-Jun-2017
  • Kirjastus: Pearson
  • ISBN-10: 0134420101
  • ISBN-13: 9780134420103
Teised raamatud teemal:
Electronic Devices (Electron Flow Version) 10th editionSuurem pilt
  • Formaat: Hardback, 992 pages, kõrgus x laius x paksus: 100x100x100 mm, kaal: 100 g
  • Ilmumisaeg: 06-Jun-2017
  • Kirjastus: Pearson
  • ISBN-10: 0134420101
  • ISBN-13: 9780134420103
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780134420103.html
Märksõnad:

For courses in basic electronics and electronic devices and circuits

 

A user-friendly, hands-on introduction to electronic devices filled with practical applications and software simulation

Electronic Devices (Electron Flow Version), 10/e, provides a solid foundation in basic analog electronics and a thorough introduction to analog integrated circuits and programmable devices. The text identifies the circuits and components within a system, helping students see how the circuit relates to the overall system function. Full-color photos and illustrations and easy-to-follow worked examples support the text's strong emphasis on real-world application and troubleshooting. Updated throughout, the Tenth Edition features selected circuits keyed to Multisim V14 and LT Spice files so that students learn how to simulate, analyze, and troubleshoot using the latest circuit simulation software. Additionally, an entirely new Chapter 18, “Communication Devices and Methods,” introduces communication devices and systems.

1 Introduction to Semiconductors
1(23)
1--1 The Atom
2(5)
1--2 Materials Used in Electronic Devices
7(4)
1--3 Current in Semiconductors
11(3)
1--4 N-Type and P-Type Semiconductors
14(2)
1--5 The PN Junction
16(8)
2 Diodes and Applications
24(78)
2--1 Diode Operation
25(5)
2--2 Voltage-Current Characteristic of a Diode
30(3)
2--3 Diode Approximations
33(5)
2--1 Half-Wave Rectifiers
38(6)
2--5 Full-Wave Rectifiers
44(7)
2--6 Power Supply Filters and Regulators
51(7)
2--7 Diode Limiters and Clampers
58(7)
2--8 Voltage Multipliers
65(2)
2--9 The Diode Datasheet
67(3)
2--10 Troubleshooting
70(32)
Device Application
79(23)
3 Special-Purpose Diodes
102(61)
3--1 The Zener Diode
103(7)
3--2 Zener Diode Applications
110(8)
3--3 Varactor Diodes
118(5)
3--4 Optical Diodes
123(14)
3--5 The Solar Cell
137(4)
3--6 Other Types of Diodes
141(5)
3--7 Troubleshooting
146(17)
Device Application
149(14)
4 Bipolar Junction Transistors
163(53)
4--1 Bipolar Junction Transistor (BJT) Structure
164(1)
4--2 Basic BJT Operation
165(2)
4--3 BJT Characteristics and Parameters
167(13)
4--4 The BJT as an Amplifier
180(2)
4--5 The BJT as a Switch
182(5)
4--6 The Phototransistor
187(3)
4--7 Transistor Categories and Packaging
190(2)
4--8 Troubleshooting
192(24)
Device Application
199(17)
5 Transistor Bias Circuits
216(39)
5--1 The DC Operating Point
217(6)
5--2 Voltage-Divider Bias
223(6)
5--3 Other Bias Methods
229(7)
5--4 Troubleshooting
236(19)
Device Application
240(15)
6 Amplifiers
255(64)
6--1 Amplifier Operation
256(3)
6--2 Transistor AC Models
259(3)
6--3 The Common-Emitter Amplifier
262(13)
6--4 The Common-Collector Amplifier
275(7)
6--5 The Common-Base Amplifier
282(2)
6--6 Multistage Amplifiers
284(5)
6--7 The Differential Amplifier
289(5)
6--8 Troubleshooting
294(25)
Device Application
298(21)
7 Power Amplifiers
319(45)
7--1 The Class A Power Amplifier
320(6)
7--2 The Class B and Class AB Push-Pull Amplifiers
326(11)
7--3 The Class C Amplifier
337(8)
7--4 Troubleshooting
345(19)
Device Application
348(16)
8 Field Effect Transistors (FETs)
364(70)
8--1 The JFET
365(2)
8--2 JFET Characteristics and Parameters
367(11)
8--3 JFET Biasing
378(11)
8--4 The Ohmic Region
389(4)
8--5 The MOSFET
393(6)
8--6 MOSFET Characteristics and Parameters
399(4)
8--7 MOSFET Biasing
403(3)
8--8 The IGBT
406(2)
8--9 Troubleshooting
408(26)
Device Application
410(24)
9 FET Amplifiers and Switching Circuits
434(59)
9--1 The Common-Source Amplifier
435(13)
9--2 The Common-Drain Amplifier
448(3)
9--3 The Common-Gate Amplifier
451(5)
9--4 The Class D Amplifier
456(4)
9--5 MOSFET Analog Switching
460(5)
9--6 MOSFET Digital Switching
465(4)
9--7 Troubleshooting
469(24)
Device Application
472(21)
10 Amplifier Frequency Response
493(59)
10--1 Basic Concepts
494(3)
10--2 The Decibel
497(3)
10--3 Low-Frequency Amplifier Response
500(18)
10--4 High-Frequency Amplifier Response
518(10)
10--5 Total Amplifier Frequency Response
528(3)
10--6 Frequency Response of Multistage Amplifiers
531(3)
10--7 Frequency Response Measurements
534(18)
Device Application
537(15)
11 Thyristors
552(38)
11--1 The Four-Layer Diode
553(2)
11--2 The Silicon-Controlled Rectifier (SCR)
555(5)
11--3 SCR Applications
560(5)
11--4 The Diac and Triac
565(5)
11--5 The Silicon-Controlled Switch (SCS)
570(1)
11--6 The Unijunction Transistor (UJT)
571(4)
11--7 The Programmable Unijunction Transistor (PUT)
575(15)
Device Application
577(13)
12 The Operational Amplifier
590(66)
12--1 Introduction to Operational Amplifiers
591(2)
12--2 Op-Amp Input Modes and Parameters
593(8)
12--3 Negative Feedback
601(2)
12--4 Op-Amps with Negative Feedback
603(5)
12--5 Effects of Negative Feedback on Op-Amp Impedances
608(5)
12--6 Bias Current and Offset Voltage
613(3)
12--7 Open-Loop Frequency and Phase Responses
616(6)
12--8 Closed-Loop Frequency Response
622(3)
12--9 Troubleshooting
625(31)
Device Application
627(6)
Programmable Analog Technology
633(23)
13 Basic Op-Amp Circuits
656(51)
13--1 Comparators
657(11)
13--2 Summing Amplifiers
668(8)
13--3 Integrators and Differentiators
676(7)
13--4 Troubleshooting
683(24)
Device Application
687(6)
Programmable Analog Technology
693(14)
14 Special Purpose Integrated Circuits
707(46)
14--1 Instrumentation Amplifiers
708(6)
14--2 Isolation Amplifiers
714(4)
14--3 Operational Transconductance Amplifiers (OTAs)
718(7)
14--4 Log and Antilog Amplifiers
725(6)
14--5 Converters and Other Integrated Circuits
731(22)
Device Application
734(6)
Programmable Analog Technology
740(13)
15 Active Filters
753(43)
15--1 Basic Filter Responses
754(4)
15--2 Filter Response Characteristics
758(4)
15--3 Active Low-Pass Filters
762(4)
15--4 Active High-Pass Filters
766(3)
15--5 Active Band-Pass Filters
769(6)
15--6 Active Band-Stop Filters
775(2)
15--7 Filter Response Measurements
777(19)
Device Application
779(5)
Programmable Analog Technology
784(12)
16 Oscillators
796(45)
16--1 The Oscillator
797(1)
16--2 Feedback Oscillators
798(2)
16--3 Oscillators with RC Feedback Circuits
800(7)
16--4 Oscillators with LC Feedback Circuits
807(8)
16--5 Relaxation Oscillators
815(5)
16--6 The 555 Timer as an Oscillator
820(21)
Device Application
826(4)
Programmable Analog Technology
830(11)
17 Voltage Regulators
841(39)
17--1 Voltage Regulation
842(3)
17--2 Basic Linear Series Regulators
845(5)
17--3 Basic Linear Shunt Regulators
850(3)
17--4 Basic Switching Regulators
853(6)
17--5 Integrated Circuit Voltage Regulators
859(6)
17--6 Integrated Circuit Voltage Regulator Configurations
865(15)
Device Application
869(11)
18 Communication Devices and Methods
880(43)
18--1 Basic Receivers
881(4)
18--2 The Linear Multiplier
885(4)
18--3 Amplitude Modulation
889(6)
18--4 The Mixer
895(3)
18--5 AM Demodulation
898(1)
18--6 IF and Audio Amplifiers
899(2)
18--7 Frequency Modulation
901(2)
18--8 The Phase-Locked Loop (PLL)
903(7)
18--9 Fiber Optics
910(13)
Answers to Odd-Numbered Problems 923(14)
Glossary 937(7)
Index 944
Thomas L. Floyd has a Masters degree in Electrical Engineering (SMU) and Bachelors degree in Electrical Engineering (UF). He has worked as a design engineer at Texas Instruments and senior engineer at Martin-Marietta (now Lockheed-Martin). In addition, he has five years experience teaching and as department head of the Electrons Technology program at Valencia Community College, Orlando, FL, and five years teaching electronics technology at Mayland Community College, Spruce Pine, NC.  Floyd has been writing textbooks in electronic technology since 1975 including Digital Fundamentals, Principles of Electric Circuits, Electronics Fundamentals, Electronic Devices, Electric Circuit Fundamentals, Digital Fundamentals: A Systems Approach, Digital Fundamentals with PLD Programming, Fundamentals of Analog Circuits: A Systems Approach, Science of Electronics: Digital, Analog Fundamentals, Basic Operational Amplifiers and Linear Integrated Circuits, DC/AC Fundamentals: A Systems Approach, and Renewable Energy Systems.