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Electronic devices and circuit theory

Author: Robert L Boylestad; Louis Nashelsky
Publisher: Upper Saddle River, N.J. : Prentice Hall, ©2002.
Edition/Format:   Book : CD for computer : English : 8th edView all editions and formats
Database:WorldCat
Summary:

For upper-level courses in devices and circuits, at 2-year or 4-year engineering and technology institutes. Offers students a complete and comprehensive survey, focusing on all the essentials they  Read more...

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Document Type: Book
All Authors / Contributors: Robert L Boylestad; Louis Nashelsky
ISBN: 0130284831 9780130284839 0130944440 9780130944443 0130925446 9780130925442 0135026490 9780135026496
OCLC Number: 45873753
Notes: Includes index.
Description: xviii, 1020 p. : ill. ; 29 cm. + 1 computer optical disc (4 3/4 in.)
Details: System requirements for accompanying computer disc: Windows 95 or higher.
Contents: 1 Semiconductor Diodes 1 --
1.2 Ideal Diode 1 --
1.3 Semiconductor Materials 3 --
1.4 Energy Levels 6 --
1.5 Extrinsic Materials--n- and p-Type 7 --
1.6 Semiconductor Diode 10 --
1.7 Mathcad 17 --
1.8 Resistance Levels 20 --
1.9 Diode Equivalent Circuits 26 --
1.10 Diode Specification Sheets 29 --
1.11 Transition and Diffusion Capacitance 33 --
1.12 Reverse Recovery Time 34 --
1.13 Semiconductor Diode Notation 34 --
1.14 Diode Testing 35 --
1.15 Zener Diodes 37 --
1.16 Light-Emitting Diodes (LEDs) 40 --
1.17 Diode Arrays--Integrated Circuits 45 --
1.19 Computer Analysis 47 --
2 Diode Applications 55 --
2.2 Load-Line Analysis 56 --
2.3 Diode Approximations 62 --
2.4 Series Diode Configurations with DC Inputs 64 --
2.5 Parallel and Series--Parallel Configurations 69 --
2.6 AND/OR Gates 72 --
2.7 Sinusoidal Inputs; Half-Wave Rectification 74 --
2.8 Full-Wave Rectification 77 --
2.9 Clippers 81 --
2.10 Clampers 88 --
2.11 Zener Diodes 92 --
2.12 Voltage-Multiplier Circuits 98 --
2.13 Practical Applications 100 --
2.15 Computer Analysis 113 --
3 Bipolar Junction Transistors 131 --
3.2 Transistor Construction 132 --
3.3 Transistor Operation 132 --
3.4 Common-Base Configuration 134 --
3.5 Transistor Amplifying Action 138 --
3.6 Common-Emitter Configuration 139 --
3.7 Common-Collector Configuration 146 --
3.8 Limits of Operation 147 --
3.9 Transistor Specification Sheet 149 --
3.10 Transistor Testing 153 --
3.11 Transistor Casing and Terminal Identification 155 --
3.13 Computer Analysis 158 --
4 DC Biasing--BJTs 163 --
4.2 Operating Point 164 --
4.3 Fixed-Bias Circuit 166 --
4.4 Emitter-Stabilized Bias Circuit 173 --
4.5 Voltage-Divider Bias 177 --
4.6 DC Bias with Voltage Feedback 186 --
4.7 Miscellaneous Bias Configurations 189 --
4.8 Design Operations 195 --
4.9 Transistor Switching Networks 201 --
4.10 Troubleshooting Techniques 206 --
4.11 PNP Transistors 209 --
4.12 Bias Stabilization 210 --
4.13 Practical Applications 220 --
4.15 Computer Analysis 231 --
5 Field-Effect Transistors 245 --
5.2 Construction and Characteristics of JFETs 246 --
5.3 Transfer Characteristics 253 --
5.4 Specification Sheets (JFETs) 259 --
5.5 Instrumentation 260 --
5.6 Important Relationships 262 --
5.7 Depletion-Type MOSFET 265 --
5.8 Enhancement-Type MOSFET 268 --
5.9 MOSFET Handling 276 --
5.10 VMOS 277 --
5.11 CMOS 278 --
5.14 Computer Analysis 282 --
6 Fet Biasing 289 --
6.2 Fixed-Bias Configuration 290 --
6.3 Self-Bias Configuration 294 --
6.4 Voltage-Divider Biasing 301 --
6.5 Depletion-Type MOSFETs 307 --
6.6 Enhancement-Type MOSFETs 311 --
6.8 Combination Networks 319 --
6.9 Design 322 --
6.10 Troubleshooting 324 --
6.11 P-Channel FETs 325 --
6.12 Universal JFET Bias Curve 328 --
6.13 Practical Applications 331 --
6.15 Computer Analysis 344 --
7 BJT Transistor Modeling 355 --
7.2 Amplification in the AC Domain 355 --
7.3 BJT Transistor Modeling 356 --
7.4 Important Parameters: Z[subscript i], Z[subscript o], A[subscript v], A[subscript i] 358 --
7.5 R[subscript e] Transistor Model 364 --
7.6 Hybrid Equivalent Model 371 --
7.7 Graphical Determination of the h-Parameters 377 --
7.8 Variations of Transistor Parameters 381 --
8 BJT Small-Signal Analysis 389 --
8.2 Common-Emitter Fixed-Bias Configuration 389 --
8.3 Voltage-Divider Bias 393 --
8.4 CE Emitter-Bias Configuration 396 --
8.5 Emitter-Follower Configuration 404 --
8.6 Common-Base Configuration 409 --
8.7 Collector Feedback Configuration 411 --
8.8 Collector DC Feedback Configuration 417 --
8.9 Approximate Hybrid Equivalent Circuit 420 --
8.10 Complete Hybrid Equivalent Model 426 --
8.12 Troubleshooting 433 --
8.13 Practical Applications 436 --
8.15 Computer Analysis 446 --
9 FET Small-Signal Analysis 461 --
9.2 FET Small-Signal Model 462 --
9.3 JFET Fixed-Bias Configuration 469 --
9.4 JFET Self-Bias Configuration 472 --
9.5 JFET Voltage-Divider Configuration 479 --
9.6 JFET Source-Follower (Common-Drain) Configuration 480 --
9.7 JFET Common-Gate Configuration 483 --
9.8 Depletion-Type MOSFETs 487 --
9.9 Enhancement-Type MOSFETs 489 --
9.10 E-MOSFET Drain-Feedback Configuration 490 --
9.11 E-MOSFET Voltage-Divider Configuration 493 --
9.12 Designing FET Amplifier Networks 494 --
9.14 Troubleshooting 500 --
9.15 Practical Applications 500 --
9.17 Computer Analysis 512 --
10 Systems Approach--Effects of R[subscript S] and R[subscript L] 525 --
10.2 Two-Port Systems 525 --
10.3 Effect of a Load Impedance (R[subscript L]) 527 --
10.4 Effect of a Source Impedance (R[subscript S]) 532 --
10.5 Combined Effect of R[subscript S] and R[subscript L] 534 --
10.6 BJT CE Networks 536 --
10.7 BJT Emitter-Follower Networks 542 --
10.8 BJT CB Networks 545 --
10.9 FET Networks 547 --
10.11 Cascaded Systems 554 --
10.13 Computer Analysis 557 --
11 BJT and Jfet Frequency Response 569 --
11.2 Logarithms 569 --
11.3 Decibels 575 --
11.4 General Frequency Considerations 576 --
11.5 Low-Frequency Analysis--Bode Plot 579 --
11.6 Low-Frequency Response--BJT Amplifier 586 --
11.7 Low-Frequency Response--FET Amplifier 594 --
11.8 Miller Effect Capacitance 600 --
11.9 High-Frequency Response--BJT Amplifier 602 --
11.10 High-Frequency Response--FET Amplifier 609 --
11.11 Multistage Frequency Effects 613 --
11.12 Square-Wave Testing 615 --
11.14 Computer Analysis 620 --
12 Compound Configurations 627 --
12.2 Cascade Connection 627 --
12.3 Cascode Connection 632 --
12.4 Darlington Connection 633 --
12.5 Feedback Pair 638 --
12.6 CMOS Circuit 642 --
12.7 Current Source Circuits 644 --
12.8 Current Mirror Circuits 646 --
12.9 Differential Amplifier Circuit 651 --
12.10 BIFET, BIMOS, and CMOS Differential Amplifier Circuits 657 --
12.12 Computer Analysis 660 --
13 Operational Amplifiers 675 --
13.2 Differential and Common-Mode Operation 677 --
13.3 Op-Amp Basics 681 --
13.4 Practical Op-Amp Circuits 685 --
13.5 Op-Amp Specifications--DC Offset Parameters 691 --
13.6 Op-Amp Specifications--Frequency Parameters 694 --
13.7 Op-Amp Unit Specifications 698 --
13.9 Computer Analysis 705 --
14 Op-Amp Applications 715 --
14.1 Constant-Gain Multiplier 715 --
14.2 Voltage Summing 719 --
14.3 Voltage Buffer 722 --
14.4 Controller Sources 723 --
14.5 Instrumentation Circuits 725 --
14.6 Active Filters 729 --
14.8 Computer Analysis 733 --
15 Power Amplifiers 747 --
15.1 Introduction--Definitions and Amplifier Types 747 --
15.2 Series-Fed Class A Amplifier 749 --
15.3 Transformer-Coupled Class A Amplifier 754 --
15.4 Class B Amplifier Operation 761 --
15.5 Class B Amplifier Circuits 765 --
15.6 Amplifier Distortion 772 --
15.7 Power Transistor Heat Sinking 776 --
15.8 Class C and Class D Amplifiers 780 --
15.10 Computer Analysis 784 --
16 Linear-Digital ICs 791 --
16.2 Comparator Unit Operation 791 --
16.3 Digital-Analog Converters 798 --
16.4 Timer IC Unit Operation 802 --
16.5 Voltage-Controlled Oscillator 805 --
16.6 Phase-Locked Loop 808 --
16.7 Interfacing Circuitry 812 --
16.9 Computer Analysis 815 --
17 Feedback and Oscillator Circuits 821 --
17.1 Feedback Concepts 821 --
17.2 Feedback Connection Types 822 --
17.3 Practical Feedback Circuits 828 --
17.4 Feedback Amplifier--Phase and Frequency Considerations 835 --
17.5 Oscillator Operation 837 --
17.6 Phase-Shift Oscillator 839 --
17.7 Wien Bridge Oscillator 842 --
17.8 Tuned Oscillator Circuit 843 --
17.9 Crystal Oscillator 846 --
17.10 Unijunction Oscillator 850 --
17.12 Computer Analysis 853 --
18 PowerF Supplies (Voltage Regulators) 859 --
18.2 General Filter Considerations 859 --
18.3 Capacitor Filter 862 --
18.4 RC Filter 865 --
18.5 Discrete Transistor Voltage Regulation 868 --
18.6 IC Voltage Regulators 875 --
18.7 Practical Applications 880 --
18.9 Computer Analysis 884 --
19 Other Two-Terminal Devices 889 --
19.2 Schottky Barrier (Hot-Carrier) Diodes 889 --
19.3 Varactor (Varicap) Diodes 892 --
19.4 Power Diodes 897 --
19.5 Tunnel Diodes 898 --
19.6 Photodiodes 902 --
19.7 Photoconductive Cells 906 --
19.8 IR Emitters 908 --
19.9 Liquid-Crystal Displays 909 --
19.10 Solar Cells 912 --
19.11 Thermistors 916 --
20 pnpn and Other Devices 923 --
20.2 Silicon-Controlled Rectifier 923 --
20.3 Basic Silicon-Controlled Rectifier Operation 923 --
20.4 SCR Characteristics and Ratings 925 --
20.5 SCR Construction and Terminal Identification 927 --
20.6 SCR Applications 928 --
20.7 Silicon-Controlled Switch 932 --
20.8 Gate Turn-Off Switch 934 --
20.9 Light-Activated SCR 935 --
20.10 Shockley Diode 937 --
20.11 DIAC 938 --
20.12 TRIAC 940 --
20.13 Unijunction Transistor 941 --
20.14 Phototransistors 950 --
20.15 Opto-Isolators 952 --
20.16 Programmable Unijunction Transistor 955 --
21 Oscilloscope and Other Measuring Instruments 965 --
21.2 Cathode Ray Tube--Theory and Construction 965 --
21.3 Cathode Ray Oscilloscope Operation 966 --
21.4 Voltage Sweep Operation 967 --
21.5 Synchronization and Triggering 970 --
21.6 Multitrace Operation 974 --
21.7 Measurement Using Calibrated CRO Scales 974 --
21.8 Special CRO Features 979 --
21.9 Signal Generators 980 --
21.10 Computer Analysis 982 --
A Making the Chips That Run the World 983 --
B Hybrid Parameters--Conversion Equations (Exact and Approximate) 996 --
C Ripple Factor and Voltage Calculations 998.
Responsibility: Robert Boylestad, Louis Nashelsky.

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