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9780130135605

Electronic Devices A Design Approach

by ;
  • ISBN13:

    9780130135605

  • ISBN10:

    0130135607

  • Edition: 1st
  • Format: Paperback
  • Copyright: 2003-03-12
  • Publisher: Pearson
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List Price: $227.79

Summary

This book presents comprehensive coverage of electronic devices, discrete and integrated, with real-world applications.Chapter topics include diode applications, bipolar junction transistors and DC biasing the BJT amplifier, transistor modeling, small-signal operation of the BJT amplifier, field-effect transistors, small-signal operation of the FET amplifier, frequency response of BJT and FET amplifiers, current-mirror current sources and differential amplifiers, operational amplifiers, power amplifiers and output stages, active filters, and oscillators and waveform generators.For engineering technology and engineering programs.

Table of Contents

Semiconductor Theory and the P-N Junction Diode
Introduction
1(1)
A Brief Review of Atomic Theory
2(5)
The P-N Junction
7(5)
The P-N Junction Diode
12(12)
Diode I-V Characteristics
12(2)
Temperature Effects
14(1)
The Diode Equation
15(1)
DC and AC Resistances of the Diode
16(4)
Basic Diode Circuits
20(3)
Diode Switching Circuits
23(1)
Zener Diode
24(4)
Light-Emitting Diode
28(2)
Summary
30(2)
Device Specifications and Data Sheets
32(11)
Problems
38(5)
Diode Applications
Introduction
43(1)
The Basic Power Supply
44(18)
The Transformer
44(1)
Half-Wave Rectifier
45(2)
Full-Wave Rectifier
47(6)
Filtering
53(3)
Regulation
56(2)
Regulated Power Supply
58(4)
Summary
62(5)
Problems
63(4)
Bipolar Junction Transistors and DC Biasing the BJT Amplifier
Introduction
67(1)
Basic Theory of BJT Operation
68(3)
Common-Emitter Characteristics
71(5)
Biasing the Common-Emitter Amplifier
76(12)
The Base Bias
77(4)
Emitter Bias
81(3)
Voltage-Divider Bias
84(4)
Biasing the Common-Collector Amplifier
88(1)
Biasing the Common-Base Amplifier
89(2)
DC Bias Analysis of the Cascode Amplifier
91(2)
Reading the Transistor Data Sheets
93(1)
DC Bias Design of BJT Amplifiers
94(6)
The Transistor Switch
100(5)
Summary
105(2)
Device Specifications and Data Sheets
107(14)
Problems
116(5)
Transistor Modeling
Introduction
121(1)
The r-parameter Model
122(9)
The Hybrid or h-parameter Model
131(24)
Problems
149(6)
Small-Signal Operation of the BJT Amplifier
Introduction
155(2)
The BJT Amplifier Fundamentals
157(6)
Analysis of the BJT Amplifier
163(20)
The Cascode Amplifier
183(4)
Troubleshooting
187(4)
Summary
191(8)
Problems
193(6)
Design of the Small-Signal BJT Amplifier
Introduction
199(1)
The AC Load Line and the Output Signal Swing
200(10)
A Brief Introduction to Frequency Response
210(2)
Design of the Common-Emitter Amplifier
212(7)
Design of the Cascode Amplifier
219(5)
Summary
224(3)
Problems
225(2)
Field-Effect Transistors
Introduction
227(1)
Junction Field-Effect Transistors (JFET)
228(33)
JFET Structure and Characteristics
228(7)
DC Biasing the JFET
235(2)
Self-Bias
237(9)
Voltage-Divider Bias
246(8)
DC Bias Design of the JFET
254(7)
Metal-Oxide Semiconductor FET (MOSFET)
261(18)
Depletion MOSFET
261(3)
Enhancement MOSFET
264(3)
DC Biasing the Enhancement MOSFET
267(8)
DC Bias Design of the MOSFET Amplifier
275(4)
Summary
279(1)
Device Specifications and Data Sheets
280(9)
Problems
284(5)
Small-Signal Operation of the FET Amplifier
Introduction
289(1)
Small-Signal Circuit Model of FET
290(4)
Analysis of the Common-Source JFET Amplifier
294(9)
Analysis of the Common-Drain JFET Amplifier
303(7)
Analysis of the Enhancement MOSFET Amplifier
310(13)
Analysis of the Common-Gate MOSFET Amplifier
323(4)
Analysis of the FET Cascode Amplifier
327(3)
Design of Small-Signal JFET and MOSFET Amplifiers
330(10)
Summary
340(9)
Problems
343(6)
Frequency Response of BJT and FET Amplifiers
Introduction
349(1)
Frequency Response Fundamentals
349(10)
Frequency Response of the CE BJT Amplifier
359(16)
Frequency Response Plot of the CE BJT Amplifier
375(2)
Frequency Response of the CB BJT Amplifier
377(3)
Frequency Response of the BJT Cascode Amplifier
380(4)
Frequency Response of the FET Amplifier
384(7)
Frequency Response of the FET Cascode Amplifier
391(3)
Summary
394(7)
Problems
396(5)
Current-Mirror Current Sources and Differential Amplifiers
Introduction
401(1)
Current-Mirror Current Sources
402(10)
Basic Current Mirror
402(2)
Wilson Current-Mirror
404(4)
MOSFET Current-Mirror
408(4)
Differential Amplifier
412(3)
The Basic Differential Amplifier Circuit
415(9)
Diff-Amp with Current-Mirror Current Source
424(15)
Diff-Amp with Basic Current-Mirror
425(3)
Diff-Amp with Wilson Current-Mirror
428(11)
MOSFET Differential Amplifier
439(7)
Diff-Amp with Basic MOSFET Current-Mirror
440(4)
Diff-Amp with Cascode MOSFET Current-Mirror
444(2)
Summary
446(7)
Problems
447(6)
Operational Amplifiers
Introduction
453(1)
Operational Amplifiers
454(2)
Open-Loop Operation
456(8)
Closed-Loop Operation
464(1)
Basic Op-Amp Configurations
465(14)
Inverting Amplifier
465(6)
Non-Inverting Amplifier
471(1)
Unity-Gain Buffer
472(4)
Compensation Resistor
476(3)
Summing Amplifiers
479(7)
Inverting Summer
479(2)
Non-Inverting Summer
481(5)
Difference Amplifier
486(8)
Noise Suppression
488(2)
Instrumentation Amplifier
490(4)
Integrator and Differentiator
494(10)
Summary
504(2)
Device Specifications and Data Sheets
506(17)
Problems
516(7)
Negative Feedback, Op-Amp Characteristics, and Single-Supply Operation
Introduction
523(1)
Negative Feedback
524(2)
Stability
524(2)
Basic Feedback Topologies
526(13)
Series-Shunt Feedback
526(13)
Op-Amp Characteristics
539(6)
DC Characteristics
539(2)
AC Characteristics
541(4)
Single-Supply Operation
545(8)
Summary
553(1)
Device Specifications and Data Sheets
554(11)
Problems
561(4)
Power Amplifiers and Output Stages
Introduction
565(1)
Classes of Operation
566(1)
Class A Power Amplifier
567(1)
Class B Push-Pull Power Amplifier
568(9)
Class AB Push-Pull Power Amplifier
577(8)
Heat Sinks and Thermal Considerations
585(3)
Summary
588(7)
Problems
593(2)
Active Filters
Introduction
595(1)
Active Filters
596(1)
First-Order Low-Pass Active Filter
596(4)
First-Order High-Pass Active Filter
600(4)
Design of the First-Order Active Filter
604(4)
Second-Order Active Filters
608(17)
Second-Order Low-Pass Active Filter
610(2)
Second-Order High-Pass Active Filter
612(1)
Sallen-Key Unity-Gain Active Filter
613(2)
Sallen-Key Equal Component Active Filter
615(4)
Design of the Second-Order Active Filter
619(6)
Higher Order Active Filters
625(8)
Band-Pass Active Filter
633(6)
Band-Stop Active Filter
639(5)
Summary
644(5)
Problems
645(4)
IC Regulators and Switching Power Supplies
Introduction
649(1)
Integrated Circuit Regulators
650(8)
Switching Power Supplies
658(30)
Buck (Step-Down) DC-DC Converter
659(10)
Boost (Step-Up) DC-DC Converter
669(9)
Buck-Boost (Inverting Step-Down/Up) DC-DC Converter
678(10)
Summary
688(1)
Device Specifications and Data Sheets
689(16)
Problems
702(3)
Oscillators and Waveform Generators
Introduction
705(1)
Oscillator Principles of Operation
706(1)
RC Phase-Shift Oscillator
707(4)
Wien-Bridge Oscillator
711(4)
Colpitts Oscillator
715(2)
Hartley Oscillator
717(3)
Square-Wave Generator
720(2)
The 555 Timer
722(4)
Function Generator
726(4)
Sine-Wave and Square-Wave Generation
726(1)
Pulse and Ramp Generation
727(2)
FSK Generation
729(1)
Summary
730(5)
Problems
732(3)
Digital-to-Analog and Analog-to-Digital Conversion
Introduction
735(1)
Digital-to-Analog Conversion
736(7)
R-2R Ladder DAC
736(4)
Binary-Weighted Resistor DAC
740(2)
Monolithic Integrated Circuit DAC
742(1)
Analog-to-Digital Conversion
743(6)
Successive Approximation ADC
743(1)
Monolithic Integrated Circuit ADC
744(2)
Mixed Signal Design Example
746(3)
Summary
749(4)
Problems
751(2)
Four-Layer Electronic Devices and Optoelectronic Devices
Introduction
753(1)
Four-Layer Devices
754(9)
Silicon Controlled Rectifier (SCR)
754(3)
Silicon Controlled Switch (SCS)
757(1)
DIACs and TRIACs
758(5)
Optoelectronic Devices
763(5)
Photoresistors
763(1)
Photodiodes
764(2)
Phototransistors
766(1)
Optocouplers
766(2)
Summary
768(2)
Device Specifications and Data Sheets
770(21)
Problems
789(2)
Index 791

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