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Electronic Devices and Circuit Theory: United States Edition 10th edition [Kõva köide]

4.14/5 (616 hinnangut Goodreads-ist)

Robert L. Boylestad, Louis Nashelsky

Formaat: Hardback, 912 pages, kõrgus x laius: 276x210 mm, kaal: 1970 g
Ilmumisaeg: 01-Sep-2008
Kirjastus: Pearson
ISBN-10: 0135026490
ISBN-13: 9780135026496

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Circuits & components - (Hetkel poes: 1 nimetust)

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Formaat: Hardback, 912 pages, kõrgus x laius: 276x210 mm, kaal: 1970 g
Ilmumisaeg: 01-Sep-2008
Kirjastus: Pearson
ISBN-10: 0135026490
ISBN-13: 9780135026496

Teised raamatud teemal:

Circuits & components - (Hetkel poes: 1 nimetust)

Püsilink: https://www.kriso.ee/db/9780135026496.html

Märksõnad:

For upper-level courses in Devices and Circuits at 2-year or 4-year Engineering and Technology institutes.

Highly accurate and thoroughly updated, this text has set the standard in electronic devices and circuit theory for nearly 30 years. Boylestad and Nashelsky offer students a complete and comprehensive survey, focusing on all the essentials they will need to succeed on the job. This very readable text is supported by strong pedagogy and content that is ideal for new students of this rapidly changing field. Its colorful, student-friendly layout boasts a large number of stunning photographs. Topics covered include semiconductor diodes, BJT devices, DC biasing, FET devices, Op-Amp applications, power amplifiers, linear-digital ICs, power supplies and voltage regulators, and other two-terminal devices. This text is an excellent reference work for anyone involved with electronic devices and other circuitry applications, such as electrical and technical engineers. A broad range of ancillary materials is available for instructor support.

Preface

Semiconductor Diodes

(58)

Introduction

(1)

Semiconductor Materials: Ge, Si, and GaAs

(1)

Covalent Bonding and Intrinsic Materials

(2)

Energy Levels

(2)

Extrinsic Materials: n-Type and p-Type

(3)

Semiconductor Diode

(10)

Ideal Versus Practical

(1)

Resistance Levels

(6)

Diode Equivalent Circuits

(3)

Transition and Diffusion Capacitance

(1)

Reverse Recovery Time

(1)

Diode Specification Sheets

(3)

Semiconductor Diode Notation

(1)

Diode Testing

(2)

Zener Diodes

(3)

Light-Emitting Diodes

(7)

Summary

(1)

Computer Analysis

(10)

Diode Applications

(72)

Introduction

(1)

Load-Line Analysis

(5)

Series Diode Configurations

(6)

Parallel and Series---Parallel Configurations

(3)

AND/OR Gates

(2)

Sinusoidal Inputs; Half-Wave Rectification

(3)

Full-Wave Rectification

(3)

Clippers

(7)

Clampers

(3)

Zener Diodes

(8)

Voltage-Multiplier Circuits

100

(3)

Practical Applications

103

(10)

Summary

113

(1)

Computer Analysis

114

(17)

Bipolar Junction Transistors

131

(30)

Introduction

131

(1)

Transistor Construction

132

(1)

Transistor Operation

132

(2)

Common-Base Configuration

134

(4)

Transistor Amplifying Action

138

(1)

Common-Emitter Configuration

139

(6)

Common-Collector Configuration

145

(1)

Limits of Operation

146

(1)

Transistor Specification Sheet

147

(4)

Transistor Testing

151

(2)

Transistor Casing and Terminal Identification

153

(1)

Summary

154

(2)

Computer Analysis

156

(5)

DC Biasing---BJTs

161

(85)

Introduction

161

(1)

Operating Point

162

(2)

Fixed-Bias Configuration

164

(7)

Emitter Bias Configuration

171

(5)

Voltage-Divider Bias Configuration

176

(7)

Collector Feedback Configuration

183

(5)

Emitter-Follower Configuration

188

(1)

Common-Base Configuration

189

(1)

Miscellaneous Bias Configurations

190

(4)

Summary Table

194

(1)

Design Operations

194

(6)

Current Mirror Circuits

200

(2)

Current Source Circuits

202

(2)

pnp Transistors

204

(2)

Transistor Switching Networks

206

(4)

Troubleshooting Techniques

210

(2)

Bias Stabilization

212

(8)

Practical Applications

220

(8)

Summary

228

(2)

Computer Analysis

230

(16)

BJT AC Analysis

246

(122)

Introduction

247

(1)

Application in the AC Domain

247

(1)

BJT Transistor Modeling

248

(3)

The re Transistor Model

251

(3)

Common-Emitter Fixed-Bias Configuration

254

(3)

Voltage-Divider Bias

257

(3)

CE Emitter-Bias Configuration

260

(7)

Emitter-Follower Configuration

267

(4)

Common-Base Configuration

271

(2)

Collector Feedback Configuration

273

(4)

Collector DC Feedback Configuration

277

(3)

Determining the Current Gain

280

(1)

Effect of RL and RS

281

(5)

Summary Tables

286

(1)

Two-Port Systems Approach

286

(8)

Cascaded Systems

294

(5)

Darlington Connection

299

(8)

Feedback Pair

307

(4)

The Hybrid Equivalent Model

311

(5)

Approximate Hybrid Equivalent Circuit

316

(6)

Complete Hybrid Equivalent Model

322

(7)

Hybrid π Model

329

(1)

Variations of Transistor Parameters

330

(2)

Troubleshooting

332

(2)

Practical Applications

334

(6)

Summary

340

(3)

Computer Analysis

343

(25)

Field-Effect Transistors

368

(44)

Introduction

368

(2)

Construction and Characteristics of JFETs

370

(6)

Transfer Characteristics

376

(6)

Specification Sheets (JFETs)

382

(2)

Instrumentation

384

(1)

Important Relationships

385

(1)

Depletion-Type MOSFET

386

(6)

Enhancement-Type MOSFET

392

(7)

MOSFET Handling

399

(1)

VMOS

400

(1)

CMOS

401

(1)

MESFETs

402

(3)

Summary Table

405

(1)

Summary

405

(1)

Computer Analysis

406

(6)

FET Biasing

412

(60)

Introduction

412

(1)

Fixed-Bias Configuration

413

(4)

Self-Bias Configuration

417

(5)

Voltage-Divider Biasing

422

(4)

Common-Gate Configuration

426

(3)

Special Case VGSQ = 0 V

429

(1)

Depletion-Type MOSFETs

429

(4)

Enhancement-Type MOSFETs

433

(6)

Summary Table

439

(1)

Combination Networks

439

(3)

Design

442

(3)

Troubleshooting

445

(1)

p-Channel FETs

445

(3)

Universal JFET Bias Curve

448

(3)

Practical Applications

451

(11)

Summary

462

(1)

Computer Analysis

463

(9)

FET Amplifiers

472

(66)

Introduction

472

(1)

JFET Small-Signal Model

473

(7)

Fixed-Bias Configuration

480

(3)

Self-Bias Configuration

483

(6)

Voltage-Divider Configuration

489

(1)

Common-Gate Configuration

490

(3)

Source-Follower (Common-Drain) Configuration

493

(4)

Depletion-Type MOSFETs

497

(1)

Enhancement-Type MOSFETs

498

(1)

E-MOSFET Drain-Feedback Configuration

499

(3)

E-MOSFET Voltage-Divider Configuration

502

(1)

Designing FET Amplifier Networks

503

(2)

Summary Table

505

(3)

Effect of RL and Rsig

508

(2)

Cascade Configuration

510

(3)

Troubleshooting

513

(1)

Practical Applications

514

(9)

Summary

523

(1)

Computer Analysis

523

(15)

BJT and JFET Frequency Response

538

(56)

Introduction

538

(1)

Logarithms

539

(4)

Decibels

543

(2)

General Frequency Considerations

545

(2)

Normalization Process

547

(2)

Low-Frequency Analysis---Bode Plot

549

(6)

Low-Frequency Response---BJT Amplifier

555

(9)

Low-Frequency Response---FET Amplifier

564

(6)

Miller Effect Capacitance

570

(2)

High-Frequency Response---BJT Amplifier

572

(7)

High-Frequency Response---FET Amplifier

579

(3)

Multistage Frequency Effects

582

(1)

Square-Wave Testing

583

(4)

Summary

587

(1)

Computer Analysis

588

(6)

Operational Amplifiers

594

(47)

Introduction

594

(3)

Differential Amplifier Circuit

597

(7)

BiFET, BiMOS, and CMOS Differential Amplifier Circuits

604

(3)

Op-Amp Basics

607

(3)

Practical Op-Amp Circuits

610

(5)

Op-Amp Specifications---DC Offset Parameters

615

(3)

Op-Amp Specifications---Frequency Parameters

618

(3)

Op-Amp Unit Specifications

621

(5)

Differential and Common-Mode Operation

626

(4)

Summary

630

(1)

Computer Analysis

631

(10)

Op-Amp Applications

641

(30)

Constant-Gain Multiplier

641

(4)

Voltage Summing

645

(3)

Voltage Buffer

648

(1)

Controlled Sources

649

(2)

Instrumentation Circuits

651

(4)

Active Filters

655

(3)

Summary

658

(1)

Computer Analysis

659

(12)

Power Amplifiers

671

(40)

Introduction---Definitions and Amplifier Types

671

(2)

Series-Fed Class A Amplifier

673

(4)

Transformer-Coupled Class A Amplifier

677

(6)

Class B Amplifier Operation

683

(4)

Class B Amplifier Circuits

687

(6)

Amplifier Distortion

693

(4)

Power Transistor Heat Sinking

697

(3)

Class C and Class D Amplifiers

700

(2)

Summary

702

(1)

Computer Analysis

703

(8)

Linear-Digital ICs

711

(29)

Introduction

711

(1)

Comparator Unit Operation

712

(6)

Digital---Analog Converters

718

(3)

Timer IC Unit Operation

721

(4)

Voltage-Controlled Oscillator

725

(2)

Phase-Locked Loop

727

(4)

Interfacing Circuitry

731

(3)

Summary

734

(1)

Computer Analysis

734

(6)

Feedback and Oscillator Circuits

740

(33)

Feedback Concepts

740

(1)

Feedback Connection Types

741

(6)

Practical Feedback Circuits

747

(5)

Feedback Amplifier---Phase and Frequency Considerations

752

(3)

Oscillator Operation

755

(1)

Phase-Shift Oscillator

756

(3)

Wien Bridge Oscillator

759

(1)

Tuned Oscillator Circuit

760

(3)

Crystal Oscillator

763

(3)

Unijunction Oscillator

766

(1)

Summary

767

(1)

Computer Analysis

768

(5)

Power Supplies (Voltage Regulators)

773

(28)

Introduction

773

(1)

General Filter Considerations

774

(2)

Capacitor Filter

776

(3)

RC Filter

779

(2)

Discrete Transistor Voltage Regulation

781

(7)

IC Voltage Regulators

788

(5)

Practical Applications

793

(3)

Summary

796

(1)

Computer Analysis

796

(5)

Other Two-Terminal Devices

801

(30)

Introduction

801

(1)

Schottky Barrier (Hot-Carrier) Diodes

801

(5)

Varactor (Varicap) Diodes

806

(3)

Power Diodes

809

(1)

Tunnel Diodes

809

(5)

Photodiodes

814

(3)

Photoconductive Cells

817

(1)

IR Emitters

818

(1)

Liquid-Crystal Displays

819

(3)

Solar Cells

822

(3)

thermistors

825

(2)

Summary

827

(4)

pnpn and Other Devices

831

(38)

Introduction

831

(1)

Silicon-Controlled Rectifier

832

(1)

Basic Silicon-Controlled Rectifier Operation

832

(1)

SCR Characteristics and Ratings

833

(2)

SCR Construction and Terminal Identification

835

(1)

SCR Applications

835

(4)

Silicon-Controlled Switch

839

(2)

Gate Turn-Off Switch

841

(1)

Light-Activated SCR

842

(3)

Shockley Diode

845

(1)

Diac

845

(2)

Triac

847

(1)

Unijunction Transistor

848

(8)

Phototransistors

856

(2)

Opto-Isolators

858

(2)

Programmable Unijunction Transistor

860

(5)

Summary

865

(4)

Appendix A: Hybrid Parameters---Graphical Determinations and Conversion Equations (Exact and Approximate)

869

(6)

Graphical Determination of the h-Parameters

869

(4)

Exact Conversion Equations

873

(1)

Approximate Conversion Equations

873

(2)

Appendix B: Ripple Factor and Voltage Calculations

875

(6)

Ripple Factor of Rectifier

875

(1)

Ripple Voltage of Capacitor Filter

876

(1)

Relation of Vdc and Vm to Ripple r

877

(1)

Relation of Vr (RMS) and Vm to Ripple r

878

(1)

Relation Connecting Conduction Angle, Percentage Ripple, and Ipeak/Idc for Rectifier-Capacitor Filter Circuits

879

(2)

Appendix C: Charts and Tables

881

(2)

Appendix D: Solutions to Selected Odd-Numbered Problems

883

(8)

Index

891

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