Başlık:
Electronic devices and circuit theory
Yazar:
Boylestad, Robert L.
ISBN:
9780130284839
9780130944443
Ek Yazar:
Edition:
8th ed.
Yayım Bilgisi:
Upper Saddle River, N.J. : Prentice Hall, c2002.
Fiziksel Tanım:
xviii, 1020 p. : ill. ; 29 cm. + 1 computer optical disc (4 3/4 in.)
General Note:
Includes index.
Added Author:
Mevcut:*
Library | Materyal Türü | Barkod | Yer Numarası | Durum |
|---|---|---|---|---|
Searching... Pamukkale Merkez Kütüphanesi | Kitap | 0023794 | TK7867.B66 2002 | Searching... Unknown |
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Özet
Özet
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 over 25 years. Boylestad offers students a complete and comprehensive survey, focusing on all the essentials they will need to succeed on the job. This very readable presentation 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. A broad range of ancillary materials is available for instructor support. *NEW -Over 40 new end-of-chapter practical examples added throughout - Provides an understanding of the design process not normally available at this level. This helps students apply content to real-world situations and makes material more meaningful. *NEW - Expanded coverage of computer software - Adds coverage of Mathcad to illustrate the versatility of the package for use in electronics - keeping students up to date on a rapidly changing part of the field. *NEW - Summaries added to the end of every chapter - Uses boldface
Table of Contents
| Preface | p. v |
| Acknowledgments | p. ix |
| 1 Semiconductor Diodes | p. 1 |
| 1.1 Introduction | p. 1 |
| 1.2 Ideal Diode | p. 1 |
| 1.3 Semiconductor Materials | p. 3 |
| 1.4 Energy Levels | p. 6 |
| 1.5 Extrinsic Materials--n- and p-Type | p. 7 |
| 1.6 Semiconductor Diode | p. 10 |
| 1.7 Mathcad | p. 17 |
| 1.8 Resistance Levels | p. 20 |
| 1.9 Diode Equivalent Circuits | p. 26 |
| 1.10 Diode Specification Sheets | p. 29 |
| 1.11 Transition and Diffusion Capacitance | p. 33 |
| 1.12 Reverse Recovery Time | p. 34 |
| 1.13 Semiconductor Diode Notation | p. 34 |
| 1.14 Diode Testing | p. 35 |
| 1.15 Zener Diodes | p. 37 |
| 1.16 Light-Emitting Diodes (LEDs) | p. 40 |
| 1.17 Diode Arrays--Integrated Circuits | p. 45 |
| 1.18 Summary | p. 46 |
| 1.19 Computer Analysis | p. 47 |
| 2 Diode Applications | p. 55 |
| 2.1 Introduction | p. 55 |
| 2.2 Load-Line Analysis | p. 56 |
| 2.3 Diode Approximations | p. 62 |
| 2.4 Series Diode Configurations with DC Inputs | p. 64 |
| 2.5 Parallel and Series--Parallel Configurations | p. 69 |
| 2.6 AND/OR Gates | p. 72 |
| 2.7 Sinusoidal Inputs; Half-Wave Rectification | p. 74 |
| 2.8 Full-Wave Rectification | p. 77 |
| 2.9 Clippers | p. 81 |
| 2.10 Clampers | p. 88 |
| 2.11 Zener Diodes | p. 92 |
| 2.12 Voltage-Multiplier Circuits | p. 98 |
| 2.13 Practical Applications | p. 100 |
| 2.14 Summary | p. 112 |
| 2.15 Computer Analysis | p. 113 |
| 3 Bipolar Junction Transistors | p. 131 |
| 3.1 Introduction | p. 131 |
| 3.2 Transistor Construction | p. 132 |
| 3.3 Transistor Operation | p. 132 |
| 3.4 Common-Base Configuration | p. 134 |
| 3.5 Transistor Amplifying Action | p. 138 |
| 3.6 Common-Emitter Configuration | p. 139 |
| 3.7 Common-Collector Configuration | p. 146 |
| 3.8 Limits of Operation | p. 147 |
| 3.9 Transistor Specification Sheet | p. 149 |
| 3.10 Transistor Testing | p. 153 |
| 3.11 Transistor Casing and Terminal Identification | p. 155 |
| 3.12 Summary | p. 156 |
| 3.13 Computer Analysis | p. 158 |
| 4 DC Biasing--BJTs | p. 163 |
| 4.1 Introduction | p. 163 |
| 4.2 Operating Point | p. 164 |
| 4.3 Fixed-Bias Circuit | p. 166 |
| 4.4 Emitter-Stabilized Bias Circuit | p. 173 |
| 4.5 Voltage-Divider Bias | p. 177 |
| 4.6 DC Bias with Voltage Feedback | p. 186 |
| 4.7 Miscellaneous Bias Configurations | p. 189 |
| 4.8 Design Operations | p. 195 |
| 4.9 Transistor Switching Networks | p. 201 |
| 4.10 Troubleshooting Techniques | p. 206 |
| 4.11 PNP Transistors | p. 209 |
| 4.12 Bias Stabilization | p. 210 |
| 4.13 Practical Applications | p. 220 |
| 4.14 Summary | p. 228 |
| 4.15 Computer Analysis | p. 231 |
| 5 Field-Effect Transistors | p. 245 |
| 5.1 Introduction | p. 211 |
| 5.2 Construction and Characteristics of JFETs | p. 246 |
| 5.3 Transfer Characteristics | p. 253 |
| 5.4 Specification Sheets (JFETs) | p. 259 |
| 5.5 Instrumentation | p. 260 |
| 5.6 Important Relationships | p. 262 |
| 5.7 Depletion-Type MOSFET | p. 265 |
| 5.8 Enhancement-Type MOSFET | p. 268 |
| 5.9 MOSFET Handling | p. 276 |
| 5.10 VMOS | p. 277 |
| 5.11 CMOS | p. 278 |
| 5.12 Summary Table | p. 280 |
| 5.13 Summary | p. 281 |
| 5.14 Computer Analysis | p. 282 |
| 6 Fet Biasing | p. 289 |
| 6.1 Introduction | p. 289 |
| 6.2 Fixed-Bias Configuration | p. 290 |
| 6.3 Self-Bias Configuration | p. 294 |
| 6.4 Voltage-Divider Biasing | p. 301 |
| 6.5 Depletion-Type MOSFETs | p. 307 |
| 6.6 Enhancement-Type MOSFETs | p. 311 |
| 6.7 Summary Table | p. 317 |
| 6.8 Combination Networks | p. 319 |
| 6.9 Design | p. 322 |
| 6.10 Troubleshooting | p. 324 |
| 6.11 P-Channel FETs | p. 325 |
| 6.12 Universal JFET Bias Curve | p. 328 |
| 6.13 Practical Applications | p. 331 |
| 6.14 Summary | p. 343 |
| 6.15 Computer Analysis | p. 344 |
| 7 BJT Transistor Modeling | p. 355 |
| 7.1 Introduction | p. 355 |
| 7.2 Amplification in the AC Domain | p. 355 |
| 7.3 BJT Transistor Modeling | p. 356 |
| 7.4 The Important Parameters: Z[subscript i], Z[subscript o], A[subscript v], A[subscript i] | p. 358 |
| 7.5 The r[subscript e] Transistor Model | p. 364 |
| 7.6 The Hybrid Equivalent Model | p. 371 |
| 7.7 Graphical Determination of the h-Parameters | p. 377 |
| 7.8 Variations of Transistor Parameters | p. 381 |
| 8 BJT Small-Signal Analysis | p. 389 |
| 8.1 Introduction | p. 389 |
| 8.2 Common-Emitter Fixed-Bias Configuration | p. 389 |
| 8.3 Voltage-Divider Bias | p. 393 |
| 8.4 CE Emitter-Bias Configuration | p. 396 |
| 8.5 Emitter-Follower Configuration | p. 404 |
| 8.6 Common-Base Configuration | p. 409 |
| 8.7 Collector Feedback Configuration | p. 411 |
| 8.8 Collector DC Feedback Configuration | p. 417 |
| 8.9 Approximate Hybrid Equivalent Circuit | p. 420 |
| 8.10 Complete Hybrid Equivalent Model | p. 426 |
| 8.11 Summary Table | p. 433 |
| 8.12 Troubleshooting | p. 433 |
| 8.13 Practical Applications | p. 436 |
| 8.14 Summary | p. 444 |
| 8.15 Computer Analysis | p. 446 |
| 9 FET Small-Signal Analysis | p. 461 |
| 9.1 Introduction | p. 461 |
| 9.2 FET Small-Signal Model | p. 462 |
| 9.3 JFET Fixed-Bias Configuration | p. 469 |
| 9.4 JFET Self-Bias Configuration | p. 472 |
| 9.5 JFET Voltage-Divider Configuration | p. 479 |
| 9.6 JFET Source-Follower (Common-Drain) Configuration | p. 480 |
| 9.7 JFET Common-Gate Configuration | p. 483 |
| 9.8 Depletion-Type MOSFETs | p. 487 |
| 9.9 Enhancement-Type MOSFETs | p. 489 |
| 9.10 E-MOSFET Drain-Feedback Configuration | p. 490 |
| 9.11 E-MOSFET Voltage-Divider Configuration | p. 493 |
| 9.12 Designing FET Amplifier Networks | p. 494 |
| 9.13 Summary Table | p. 497 |
| 9.14 Troubleshooting | p. 500 |
| 9.15 Practical Applications | p. 500 |
| 9.16 Summary | p. 510 |
| 9.17 Computer Analysis | p. 512 |
| 10 Systems Approach--Effects of R[subscript S] and R[subscript L] | p. 525 |
| 10.1 Introduction | p. 525 |
| 10.2 Two-Port Systems | p. 525 |
| 10.3 Effect of a Load Impedance (R[subscript L]) | p. 527 |
| 10.4 Effect of a Source Impedance (R[subscript S]) | p. 532 |
| 10.5 Combined Effect of R[subscript S] and R[subscript L] | p. 534 |
| 10.6 BJT CE Networks | p. 536 |
| 10.7 BJT Emitter-Follower Networks | p. 542 |
| 10.8 BJT CB Networks | p. 545 |
| 10.9 FET Networks | p. 547 |
| 10.10 Summary Table | p. 550 |
| 10.11 Cascaded Systems | p. 554 |
| 10.12 Summary | p. 555 |
| 10.13 Computer Analysis | p. 557 |
| 11 BJT and Jfet Frequency Response | p. 569 |
| 11.1 Introduction | p. 569 |
| 11.2 Logarithms | p. 569 |
| 11.3 Decibels | p. 575 |
| 11.4 General Frequency Considerations | p. 576 |
| 11.5 Low-Frequency Analysis--Bode Plot | p. 579 |
| 11.6 Low-Frequency Response--BJT Amplifier | p. 586 |
| 11.7 Low-Frequency Response--FET Amplifier | p. 594 |
| 11.8 Miller Effect Capacitance | p. 600 |
| 11.9 High-Frequency Response--BJT Amplifier | p. 602 |
| 11.10 High-Frequency Response--FET Amplifier | p. 609 |
| 11.11 Multistage Frequency Effects | p. 613 |
| 11.12 Square-Wave Testing | p. 615 |
| 11.13 Summary | p. 617 |
| 11.14 Computer Analysis | p. 620 |
| 12 Compound Configurations | p. 627 |
| 12.1 Introduction | p. 627 |
| 12.2 Cascade Connection | p. 627 |
| 12.3 Cascode Connection | p. 632 |
| 12.4 Darlington Connection | p. 633 |
| 12.5 Feedback Pair | p. 638 |
| 12.6 CMOS Circuit | p. 642 |
| 12.7 Current Source Circuits | p. 644 |
| 12.8 Current Mirror Circuits | p. 646 |
| 12.9 Differential Amplifier Circuit | p. 651 |
| 12.10 BIFET, BIMOS, and CMOS Differential Amplifier Circuits | p. 657 |
| 12.11 Summary | p. 658 |
| 12.12 Computer Analysis | p. 660 |
| 13 Operational Amplifiers | p. 675 |
| 13.1 Introduction | p. 675 |
| 13.2 Differential and Common-Mode Operation | p. 677 |
| 13.3 Op-Amp Basics | p. 681 |
| 13.4 Practical Op-Amp Circuits | p. 685 |
| 13.5 Op-Amp Specifications--DC Offset Parameters | p. 691 |
| 13.6 Op-Amp Specifications--Frequency Parameters | p. 694 |
| 13.7 Op-Amp Unit Specifications | p. 698 |
| 13.8 Summary | p. 704 |
| 13.9 Computer Analysis | p. 705 |
| 14 Op-Amp Applications | p. 715 |
| 14.1 Constant-Gain Multiplier | p. 715 |
| 14.2 Voltage Summing | p. 719 |
| 14.3 Voltage Buffer | p. 722 |
| 14.4 Controller Sources | p. 723 |
| 14.5 Instrumentation Circuits | p. 725 |
| 14.6 Active Filters | p. 729 |
| 14.7 Summary | p. 733 |
| 14.8 Computer Analysis | p. 733 |
| 15 Power Amplifiers | p. 747 |
| 15.1 Introduction--Definitions and Amplifier Types | p. 747 |
| 15.2 Series-Fed Class A Amplifier | p. 749 |
| 15.3 Transformer-Coupled Class A Amplifier | p. 754 |
| 15.4 Class B Amplifier Operation | p. 761 |
| 15.5 Class B Amplifier Circuits | p. 765 |
| 15.6 Amplifier Distortion | p. 772 |
| 15.7 Power Transistor Heat Sinking | p. 776 |
| 15.8 Class C and Class D Amplifiers | p. 780 |
| 15.9 Summary | p. 782 |
| 15.10 Computer Analysis | p. 784 |
| 16 Linear-Digital ICs | p. 791 |
| 16.1 Introduction | p. 791 |
| 16.2 Comparator Unit Operation | p. 791 |
| 16.3 Digital-Analog Converters | p. 798 |
| 16.4 Timer IC Unit Operation | p. 802 |
| 16.5 Voltage-Controlled Oscillator | p. 805 |
| 16.6 Phase-Locked Loop | p. 808 |
| 16.7 Interfacing Circuitry | p. 812 |
| 16.8 Summary | p. 815 |
| 16.9 Computer Analysis | p. 815 |
| 17 Feedback and Oscillator Circuits | p. 821 |
| 17.1 Feedback Concepts | p. 821 |
| 17.2 Feedback Connection Types | p. 822 |
| 17.3 Practical Feedback Circuits | p. 828 |
| 17.4 Feedback Amplifier--Phase and Frequency Considerations | p. 835 |
| 17.5 Oscillator Operation | p. 837 |
| 17.6 Phase-Shift Oscillator | p. 839 |
| 17.7 Wien Bridge Oscillator | p. 842 |
| 17.8 Tuned Oscillator Circuit | p. 843 |
| 17.9 Crystal Oscillator | p. 846 |
| 17.10 Unijunction Oscillator | p. 850 |
| 17.11 Summary | p. 852 |
| 17.12 Computer Analysis | p. 853 |
| 18 Power Supplies (Voltage Regulators) | p. 859 |
| 18.1 Introduction | p. 859 |
| 18.2 General Filter Considerations | p. 859 |
| 18.3 Capacitor Filter | p. 862 |
| 18.4 RC Filter | p. 865 |
| 18.5 Discrete Transistor Voltage Regulation | p. 868 |
| 18.6 IC Voltage Regulators | p. 875 |
| 18.7 Practical Applications | p. 880 |
| 18.8 Summary | p. 883 |
| 18.9 Computer Analysis | p. 884 |
| 19 Other Two-Terminal Devices | p. 889 |
| 19.1 Introduction | p. 889 |
| 19.2 Schottky Barrier (Hot-Carrier) Diodes | p. 889 |
| 19.3 Varactor (Varicap) Diodes | p. 892 |
| 19.4 Power Diodes | p. 897 |
| 19.5 Tunnel Diodes | p. 898 |
| 19.6 Photodiodes | p. 902 |
| 19.7 Photoconductive Cells | p. 906 |
| 19.8 IR Emitters | p. 908 |
| 19.9 Liquid-Crystal Displays | p. 909 |
| 19.10 Solar Cells | p. 912 |
| 19.11 Thermistors | p. 916 |
| 19.12 Summary | p. 918 |
| 20 pnpn and Other Devices | p. 923 |
| 20.1 Introduction | p. 923 |
| 20.2 Silicon-Controlled Rectifier | p. 923 |
| 20.3 Basic Silicon-Controlled Rectifier Operation | p. 923 |
| 20.4 SCR Characteristics and Ratings | p. 925 |
| 20.5 SCR Construction and Terminal Identification | p. 927 |
| 20.6 SCR Applications | p. 928 |
| 20.7 Silicon-Controlled Switch | p. 932 |
| 20.8 Gate Turn-Off Switch | p. 934 |
| 20.9 Light-Activated SCR | p. 935 |
| 20.10 Shockley Diode | p. 937 |
| 20.11 DIAC | p. 938 |
| 20.12 TRIAC | p. 940 |
| 20.13 Unijunction Transistor | p. 941 |
| 20.14 Phototransistors | p. 950 |
| 20.15 Opto-Isolators | p. 952 |
| 20.16 Programmable Unijunction Transistor | p. 955 |
| 20.17 Summary | p. 960 |
| 21 Oscilloscope and Other Measuring Instruments | p. 965 |
| 21.1 Introduction | p. 965 |
| 21.2 Cathode Ray Tube--Theory and Construction | p. 965 |
| 21.3 Cathode Ray Oscilloscope Operation | p. 966 |
| 21.4 Voltage Sweep Operation | p. 967 |
| 21.5 Synchronization and Triggering | p. 970 |
| 21.6 Multitrace Operation | p. 974 |
| 21.7 Measurement Using Calibrated CRO Scales | p. 974 |
| 21.8 Special CRO Features | p. 979 |
| 21.9 Signal Generators | p. 980 |
| 21.10 Computer Analysis | p. 982 |
| Appendices | |
| A Making the Chips That Run the World | p. 983 |
| B Hybrid Parameters--Conversion Equations (Exact and Approximate) | p. 996 |
| C Ripple Factor and Voltage Calculations | p. 998 |
| D Charts and Tables | p. 1005 |
| E Solutions to Selected Odd-Numbered Problems | p. 1007 |
| Index | p. 1013 |
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