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Electronics : A Top-Down Approach to Computer-Aided Circuitry Design

by: Hambley, Allan R.

Electronics : A Top-Down Approach to Computer-Aided Circuitry Design

by: Hambley, Allan R.

ISBN 13:
9780023493355
ISBN 10:
0023493356
Edition: CD
Format: Paperback
Copyright: 01/01/2000
Publisher: Prentice Hall
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Introduction

(23)

Electronic Systems

(7)

The Design Process

(4)

A Typical Electronic System: The Cardiac Pacemaker

(3)

Physical Electronics and Process Engineering

(4)

The Frequency Spectrum

(4)

Review Questions

(1)

Amplifiers: Specifications and External Characteristics

(69)

Basic Concepts

(6)

Cascaded Amplifiers

(3)

Power Supplies and Efficiency

(3)

Decibel Notation

(2)

Additional Amplifier Models

(4)

Importance of Amplifier Impedances in Various Applications

(2)

Ideal Amplifiers

(2)

Frequency Response

(4)

The Miller Effect

(7)

Liner Waveform Distortion

(6)

Pulse Response

(4)

The Transfer Characteristic and Nonlinear Distortion

(2)

Intermodulation Distortion

(4)

Differential Amplifiers

(5)

Offset Voltage, Bias Current, and Offset Current

(15)

Review Questions

(1)

Problems

(9)

Introduction to Operational Amplifiers

(25)

The Ideal Operational Amplifier

(2)

The Summing-Point Constraint

(1)

The Inverting Amplifier

(8)

The Noninverting Amplifier

102

(2)

Design of Simple Amplifiers

104

(13)

Review Questions

111

(1)

Problems

111

(6)

Introduction to Diodes

117

(47)

The Diode

117

(3)

Load-Line Analysis of Diode Circuits

120

(2)

Zener-Diode Voltage-Regulator Circuits

122

(5)

The Shockley Equation

127

(2)

The Ideal Diode Model

129

(2)

Piecewise-Linear Diode Models

131

(3)

Rectifier Circuits

134

(7)

Wave-Shaping Circuits

141

(7)

Diode Logic Circuits

148

(1)

An Analog Switch

149

(1)

Linear Small-Signal Equivalent Circuits

150

(14)

Review Questions

156

(1)

Problems

156

(8)

Introduction to Bipolar Junction Transistors

164

(71)

Current and Voltage Relationships

164

(3)

Common-Emitter Characteristics

167

(4)

Load-Line Analysis of a Common-Emitter Amplifier

171

(6)

The pnp Bipolar Junction Transistor

177

(2)

Secondary Effects

179

(5)

Large-Signal DC Circuit Models

184

(3)

Large-Signal DC Analysis of BJT Circuits

187

(8)

Design Considerations for the Four-Resistor Bias Circuit

195

(2)

Small-Signal Equivalent Circuits

197

(3)

The Common-Emitter Amplifier

200

(6)

The Emitter Follower

206

(6)

Review of Small-Signal Equivalent-Circuit Analysis

212

(5)

Resistor-Transistor Logic Circuits

217

(18)

Review Questions

224

(1)

Problems

225

(10)

Introduction to Field-Effect Transistors

235

(63)

The n-Channel Junction FET

235

(8)

Metal-Oxide-Semiconductor FETs

243

(7)

Load-Line Analysis of a Simple JEET Amplifier

250

(4)

The Self-bias Circuit

254

(4)

The Fixed- Plus Self-bias Circuit

258

(5)

The Small-Signal Equivalent Circuit

263

(4)

Small-Signal Equivalent-Circuit Analysis: The Common-Source Amplifier

267

(4)

Small-Signal Equivalent-Circuit Analysis: The Source Follower

271

(5)

The FET as a Voltage-Controlled Resistance

276

(2)

CMOS Logic Circuits

278

(8)

The CMOS Transmission Gate

286

(12)

Review Questions

289

(1)

Problems

289

(9)

Computer-Aided Analysis of Electronic Circuits: SPICE

298

(71)

Overview of SPICE Programs

299

(7)

Operating-Point Analysis

306

(4)

DC Analysis

310

(6)

Transfer-Function Analysis

316

(10)

Transient Analysis

326

(16)

AC Analysis

342

(6)

Design Analysis

348

(21)

Review Questions

361

(1)

Problems

361

(8)

Feedback

369

(101)

Effect of Feedback on Gain

370

(3)

Reduction of Nonlinear Distortion

373

(7)

Noise Reduction

380

(4)

Feedback Types

384

(2)

Effect of Feedback Types on Gain

386

(1)

Effect of Feedback Types on Input Impedance

387

(2)

Effect of Feedback Types on Output Impedance

389

(2)

Summary of the Effects of Various Feedback Types

391

(1)

Practical Feedback Networks

392

(4)

Design of Feedback Amplifiers

396

(12)

Transient and Frequency Response

408

(9)

Dominant-Pole Amplifiers

417

(5)

Two-Pole Amplifiers

422

(4)

Amplifiers Having Three or More Poles

426

(5)

Gain Margin and Phase Margin

431

(7)

Compensation by Adding a Dominant Pole

438

(9)

Compensation by Moving a Pole

447

(4)

Compensation by Adding a Pole and a Zero

451

(3)

An Example: The Integrated-Circuit Operational Amplifier

454

(16)

Review Questions

464

(1)

Problems

465

(5)

Operational Amplifier Circuits

470

(107)

Imperfections in the Linear Range of Operation

470

(12)

Nonlinear Limitations

482

(5)

DC Imperfections

487

(6)

Op-Amp Imperfections Related to the Internal Circuit

493

(8)

A Collection of Amplifier Circuits

501

(8)

Precision Rectifiers

509

(5)

Precision Peak Detector

514

(2)

Sample-and-Hold Circuit

516

(1)

Precision Clamp Circuit

517

(2)

Integrators and Differentiators

519

(6)

Active Low-Pass Filters

525

(8)

Active High-Pass Filters

533

(2)

Active Bandpass Filters

535

(7)

Introduction to Oscillators

542

(6)

The Wien-Bridge Oscillator

548

(7)

Design Example

555

(22)

Review Questions

566

(1)

Problems

567

(10)

Comparators and Timers

577

(50)

The Comparator

577

(2)

The Schmitt Trigger

579

(8)

The Astable Multivibrator

587

(6)

A Monostable Multivibrator

593

(10)

The 555 Timer

603

(5)

Design Example: A Function Generator

608

(19)

Review Questions

620

(1)

Problems

621

(6)

Internal Physics and Circuit Models of Semiconductor Devices

627

(101)

Conduction in Semiconductors

627

(16)

The pn Junction

643

(8)

Switching and High-Frequency Behavior of the pn Junction

651

(12)

Special Diode Types

663

(3)

SPICE Parameters for Diodes

666

(8)

Static Characteristics of the BJT

674

(6)

Small-Signal Models for the BJT

680

(10)

Large-Signal Models for the BJT

690

(4)

SPICE Models for the BJT

694

(4)

Switching Behavior of the BJT

698

(6)

IC BJTs and Their Models

704

(7)

SPICE Models for the JFET

711

(3)

SPICE Models for the MOSFET

714

(14)

Review Questions

721

(1)

Problems

722

(6)

Design of BJT Amplifiers

728

(86)

Design Rules for Discrete and Integrated Circuits

728

(2)

Discrete BJT Bias Circuit Design

730

(9)

Biasing of Bipolar IC Amplifiers

739

(11)

Design of the Common-Emitter Amplifier

750

(14)

Design of the Emitter Follower

764

(8)

Design of the Common-Base Amplifier

772

(7)

The Emitter-Coupled Differential Pair

779

(12)

Small-Signal Equivalent-Circuit Analysis of the Emitter-Coupled Differential Pair

791

(6)

Design of the Emitter-Coupled Differential Amplifier

797

(17)

Review Questions

807

(1)

Problems

807

(7)

Design of FET Amplifiers

814

(48)

FET Current Sources

815

(6)

Design of the Common-Source Amplifier

821

(10)

Design of the Source Follower

831

(7)

Design of the Common-Gate Amplifier

838

(2)

The Source-Coupled Differential Pair

840

(9)

A CMOS Op Amp

849

(13)

Review Questions

856

(1)

Problems

857

(5)

Design of Wideband Amplifiers

862

(42)

The Common-Emitter Amplifier at High Frequencies

862

(7)

Design of the Common-Emitter Amplifier for Extended High-Frequency Response

869

(6)

Circuit Configurations That Minimize Feedback Capacitance

875

(5)

The Emitter Follower

880

(5)

Strip-Line Techniques

885

(19)

Review Questions

897

(1)

Problems

898

(6)

Tuned-Circuit Techniques

904

(73)

The Series Resonant Circuit

904

(8)

The Parallel Resonant Circuit

912

(2)

Series-Parallel Transformations

914

(13)

Impedance-Matching Networks: Design Example

927

(6)

Mutually Coupled Inductors and Double Tuned Circuits

933

(10)

Tuned Amplifiers

943

(11)

LC Oscillators

954

(9)

Crystal-Controlled Oscillators

963

(14)

Review Questions

969

(1)

Problems

969

(8)

Output Stages and Power Amplifiers

977

(48)

Thermal Considerations

978

(6)

Power Devices

984

(5)

Class A IC Output Stages

989

(10)

Transformer-Coupled Class A Amplifiers

999

(7)

Class B Amplifiers

1006

(19)

Review Questions

1018

(1)

Problems

1018

(7)

Power-Supply Design

1025

(40)

Linear Voltage Regulators

1027

(9)

Rectifier Circuits

1036

(10)

Thermal Design Considerations

1046

(2)

Switching Regulators

1048

(9)

Additional Considerations

1057

(8)

Review Questions

1060

(1)

Problems

1060

(5)

Appendix A Introduction to Digital Electronics

1065

(44)

A.1 Information in Digital Form

1066

(1)

A.2 Combinatorial Logic Circuits

1067

(11)

A.3 Electrical Specifications for Logic Gates

1078

(12)

A.4 Sequential Logic Circuits

1090

(19)

Review Questions

1104

(1)

Problems

1104

(5)

Appendix B Bode Plots and Capacitive Coupling

1109

(24)

B.1 Bode Plots

1109

(13)

B.2 Coupling Capacitors

1122

(6)

B.3 An Approximate Formula for the Lower Half-Power Frequency of Capacitively Coupled Amplifiers

1128

(1)

B.4 Design Considerations for Capacitively Coupled Amplifiers

1129

(4)

Review Questions

1131

(1)

Problems

1131

(2)

Appendix C SPICE Programs and Device Model Libraries

1133

(2)

Appendix D Manufacturers' Data Sheets for Selected Devices

1135

(116)

Appendix E Nominal Values and the Color Code for Resistors

1251

(2)

Appendix F References and Suggestions for Additional Reading

1253

(2)

Index

1255

Amazon no longer offers textbook rentals. We do!

Electronics : A Top-Down Approach to Computer-Aided Circuitry Design

Electronics : A Top-Down Approach to Computer-Aided Circuitry Design

9780023493355

0023493356

Table of Contents

Supplemental Materials

Write a Review

Amazon no longer offers textbook rentals. We do!

Electronics : A Top-Down Approach to Computer-Aided Circuitry Design

Electronics : A Top-Down Approach to Computer-Aided Circuitry Design

9780023493355

0023493356

Table of Contents

Supplemental Materials

Write a Review

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