Electrónica:Teoría de Circuitos y Dispositivos Electrónicos
Electrónica: Teoría de Circuitos y Dispositivos. Electrónicos. Décima edición. Robert L. Boylestad. Louis Nashelsky. TRADUCCIÓN. Rodolfo Navarro Salas.
ELECTRONIC DEVICES AND CIRCUIT THEORY
SEVENTH EDITION. ELECTRONIC DEVICES. AND CIRCUIT THEORY. ROBERT BOYLESTAD. LOUIS NASHELSKY. PRENTICE HALL. Upper Saddle River New Jersey. Columbus
Introduccion al analisis de circuitos
BOYLESTAD ROBERT L. Introducción al análisis de circuitos. PEARSON EDUCACIÓN
Introductory Circuit Analysis Robert L Boylestad Twelfth Edition
From Chapter 1 of Introductory Circuit Analysis Twelfth Edition
Diapositiva 1
Autores: Robert L. Boylestad y Louis Nashelsky. Séptima edición: Columbus Ohio. Editorial: Prentice Hall. Page 8. 2.2 Estructuras cristalinas de.
Introductory Circuit Analysis Tenth Edition
mid 1800s Professor Gustav Robert Kirchhoff introduced a series of resistivity
Open Education Resource: Network Theorems
OER is accessible from: https://ramakomaragiri.wordpress.com/fdp201x?oer/. “Robert L. Boylestad Introductory Circuit Analysis
Uppsala Universitet
24 Jun 2018 The resonant circuit (fig 1) consists of a combination of RL and C ... As that happens the schottky diode Ds2 rob the current from gate G2 ...
Electrónica - Teoria de circuitos 6ta Edicion. - Boylestad.pdf
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8/20/2015 - electrical engineering (ee) — gate books
Robert L. Boylestad Louis Nashelsky. 4. Electronic Devices and Circuits. Jacob Millman. 5. Digital Logic & Computer Design. M. Morris Mano.
SEVENTH EDITION
ELECTRONICDEVICES
ANDCIRCUITTHEORY
ROBERT BOYLESTAD
LOUIS NASHELSKY
PRENTICE HALL
Upper Saddle River, New Jersey Columbus, Ohio
Contents
vPREFACExiii
ACKNOWLEDGMENTSxvii
1SEMICONDUCTOR DIODES1
1.1Introduction 1
1.2Ideal Diode 1
1.3Semiconductor Materials 3
1.4Energy Levels 6
1.5Extrinsic Materials - n- and p-Type 7
1.6Semiconductor Diode 10
1.7Resistance Levels 17
1.8Diode Equivalent Circuits 24
1.9Diode Specification Sheets 27
1.10Transition and Diffusion Capacitance 31
1.11Reverse Recovery Time 32
1.12Semiconductor Diode Notation 32
1.13Diode Testing 33
1.14Zener Diodes 35
1.15Light-Emitting Diodes (LEDs) 38
1.16Diode Arrays - Integrated Circuits 42
1.17PSpice Windows 43
2DIODE APPLICATIONS51
2.1Introduction 51
2.2Load-Line Analysis 52
2.3Diode Approximations 57
2.4Series Diode Configurations with DC Inputs 59
2.5Parallel and Series-Parallel Configurations 64
2.6AND/OR Gates 67
2.7Sinusoidal Inputs; Half-Wave Rectification 69
2.8Full-Wave Rectification 72
2.9Clippers 76
2.10Clampers 83
2.11Zener Diodes 87
2.12Voltage-Multiplier Circuits 94
2.13PSpice Windows 97
3BIPOLAR JUNCTION TRANSISTORS112
3.1Introduction 112
3.2Transistor Construction 113
3.3Transistor Operation 113
3.4Common-Base Configuration 115
3.5Transistor Amplifying Action 119
3.6Common-Emitter Configuration 120
3.7Common-Collector Configuration 127
3.8Limits of Operation 128
3.9Transistor Specification Sheet 130
3.10Transistor Testing 134
3.11Transistor Casing and Terminal Identification 136
3.12PSpice Windows 138
4DC BIASING - BJTS143
4.1Introduction 143
4.2Operating Point 144
4.3Fixed-Bias Circuit 146
4.4Emitter-Stabilized Bias Circuit 153
4.5Voltage-Divider Bias 157
4.6DC Bias with Voltage Feedback 165
4.7Miscellaneous Bias Configurations 168
4.8Design Operations 174
4.9Transistor Switching Networks 180
4.10Troubleshooting Techniques 185
4.11PNP Transistors 188
4.12Bias Stabilization 190
4.13PSpice Windows 199
5FIELD-EFFECT TRANSISTORS211
5.1Introduction 211
5.2Construction and Characteristics of JFETs 212
5.3Transfer Characteristics 219
viContents
5.4Specification Sheets (JFETs) 223
5.5Instrumentation 226
5.6Important Relationships 227
5.7Depletion-Type MOSFET 228
5.8Enhancement-Type MOSFET 234
5.9MOSFET Handling 242
5.10VMOS 243
5.11CMOS 244
5.12Summary Table 246
5.13PSpice Windows 247
6FET BIASING253
6.1Introduction 253
6.2Fixed-Bias Configuration 254
6.3Self-Bias Configuration 258
6.4Voltage-Divider Biasing 264
6.5Depletion-Type MOSFETs 270
6.6Enhancement-Type MOSFETs 274
6.7Summary Table 280
6.8Combination Networks 282
6.9Design 285
6.10Troubleshooting 287
6.11P-Channel FETs 288
6.12Universal JFET Bias Curve 291
6.13PSpice Windows 294
7BJT TRANSISTOR MODELING305
7.1Introduction 305
7.2Amplification in the AC Domain 305
7.3BJT Transistor Modeling 306
7.4The Important Parameters: Z
i , Z o , A v , A i 3087.5The r
eTransistor Model 314
7.6The Hybrid Equivalent Model 321
7.7Graphical Determination of the h-parameters 327
7.8Variations of Transistor Parameters 331
8BJT SMALL-SIGNAL ANALYSIS338
8.1Introduction 338
8.3Common-Emitter Fixed-Bias Configuration 338
8.3Voltage-Divider Bias 342
8.4CE Emitter-Bias Configuration 345
8.3Emitter-Follower Configuration 352
8.6Common-Base Configuration 358
viiContents
8.7Collector Feedback Configuration 360
8.8Collector DC Feedback Configuration 366
8.9Approximate Hybrid Equivalent Circuit 369
8.10Complete Hybrid Equivalent Model 375
8.11Summary Table 382
8.12Troubleshooting 382
8.13PSpice Windows 385
9FET SMALL-SIGNAL ANALYSIS401
9.1Introduction 401
9.2FET Small-Signal Model 402
9.3JFET Fixed-Bias Configuration 410
9.4JFET Self-Bias Configuration 412
9.5JFET Voltage-Divider Configuration 418
9.6JFET Source-Follower (Common-Drain) Configuration 419
9.7JFET Common-Gate Configuration 422
9.8Depletion-Type MOSFETs 426
9.9Enhancement-Type MOSFETs 428
9.10E-MOSFET Drain-Feedback Configuration 429
9.11E-MOSFET Voltage-Divider Configuration 432
9.12Designing FET Amplifier Networks 433
9.13Summary Table 436
9.14Troubleshooting 439
9.15PSpice Windows 439
10SYSTEMS APPROACH -
EFFECTS OF R
s AND R L 45210.1Introduction 452
10.2Two-Port Systems 452
10.3Effect of a Load Impedance (R
L ) 45410.4Effect of a Source Impedance (R
s ) 45910.5Combined Effect of R
s and R L 46110.6BJT CE Networks 463
10.7BJT Emitter-Follower Networks 468
10.8BJT CB Networks 471
10.9FET Networks 473
10.10Summary Table 476
10.11Cascaded Systems 480
10.12PSpice Windows 481
11BJT AND JFET FREQUENCY RESPONSE493
11.1Introduction 493
11.2Logarithms 493
11.3Decibels 497
viiiContents
11.4General Frequency Considerations 500
11.5Low-Frequency Analysis - Bode Plot 503
11.6Low-Frequency Response - BJT Amplifier 508
11.7Low-Frequency Response - FET Amplifier 516
11.8Miller Effect Capacitance 520
11.9High-Frequency Response - BJT Amplifier 523
11.10High-Frequency Response - FET Amplifier 530
11.11Multistage Frequency Effects 534
11.12Square-Wave Testing 536
11.13PSpice Windows 538
12COMPOUND CONFIGURATIONS544
12.1Introduction 544
12.2Cascade Connection 544
12.3Cascode Connection 549
12.4Darlington Connection 550
12.5Feedback Pair 555
12.6CMOS Circuit 559
12.7Current Source Circuits 561
12.8Current Mirror Circuits 563
12.9Differential Amplifier Circuit 566
12.10BIFET, BIMOS, and CMOS Differential Amplifier Circuits 574
12.11PSpice Windows 575
13DISCRETE AND IC
MANUFACTURING TECHNIQUES588
13.1Introduction 588
13.2Semiconductor Materials, Si, Ge, and GaAs 588
13.3Discrete Diodes 590
13.4Transistor Fabrication 592
13.5Integrated Circuits 593
13.6Monolithic Integrated Circuit 595
13.7The Production Cycle 597
13.8Thin-Film and Thick-Film Integrated Circuits 607
13.9Hybrid Integrated Circuits 608
14OPERATIONAL AMPLIFIERS609
14.1Introduction 609
14.2Differential and Common-Mode Operation 611
14.3Op-Amp Basics 615
14.4Practical Op-Amp Circuits 619
14.5Op-Amp Specifications - DC Offset Parameters 625
14.6Op-Amp Specifications - Frequency Parameters 628
14.7Op-Amp Unit Specifications 632
14.8PSpice Windows 638
ixContents
15OP-AMP APPLICATIONS648
15.1Constant-Gain Multiplier 648
15.2Voltage Summing 652
15.3Voltage Buffer 655
15.4Controller Sources 656
15.5Instrumentation Circuits 658
15.6Active Filters 662
15.7PSpice Windows 666
16POWER AMPLIFIERS679
16.1Introduction - Definitions and Amplifier Types 679
16.2Series-Fed Class A Amplifier 681
16.3Transformer-Coupled Class A Amplifier 686
16.4Class B Amplifier Operation 693
16.5Class B Amplifier Circuits 697
16.6Amplifier Distortion 704
16.7Power Transistor Heat Sinking 708
16.8Class C and Class D Amplifiers 712
16.9PSpice Windows 714
17LINEAR-DIGITAL ICs721
17.1Introduction 721
17.2Comparator Unit Operation 721
17.3Digital-Analog Converters 728
17.4Timer IC Unit Operation 732
17.5Voltage-Controlled Oscillator 735
17.6Phase-Locked Loop 738
17.7Interfacing Circuitry 742
17.8PSpice Windows 745
18FEEDBACK AND OSCILLATOR CIRCUITS751
18.1Feedback Concepts 751
18.2Feedback Connection Types 752
18.3Practical Feedback Circuits 758
18.4Feedback Amplifier - Phase and Frequency Considerations 765
18.5Oscillator Operation 767
18.6Phase-Shift Oscillator 769
18.7Wien Bridge Oscillator 772
18.8Tuned Oscillator Circuit 773
18.9Crystal Oscillator 776
18.10Unijunction Oscillator 780
xContents
19POWER SUPPLIES
(VOLTAGE REGULATORS)783quotesdbs_dbs22.pdfusesText_28
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