Microelectronics / Jacob Millman, and Arvin Grabel.

Contents : Preface xvii Prologue : A Brief History of Electronics 1 Part One : SEMICONDUCTOR DEVICES -- 1 Semiconductors 19 1-1 Forces, Fields, and Energy 19 1-2 Conduction in Metals 23 1-3 The Intrinsic Semiconductor 26 1-4 Extrinsic Semiconductors 30 1-5 Variations in the Properties of Silicon 34 1-6 Diffusion 35 1-7 Graded Semiconductors 37 2 The pn Junction Diode 41 2-1 The Open-Circuited Junction 41 2-2 The Biased pn Junction 44 2-3 The Volt-Ampere Characteristic 46 2-4 Temperature Dependence of The V-I Characteristic 49 2-5 Germanium Diodes 49 2-6 The Diode as a Circuit Element 49 2-7 Large-Signal Diode Models 52 2-8 Elementary Diode Applications 56 2-9 Small-Signal Diode Models 61 2-10 Junction Diode Switching Times 66 2-11 Zener Diodes 67 2-12 Schottky Barrier Diodes 70 2-13 The Step-Graded Junction Diode 71 3. Biopolar Junction Transistors 79 3-1 The Ideal Current-Controlled Source 79 3-2 The Junction Transistor 83 3-3 The Ebers-Moll Representation of the BJT 87 3-4 The Common-Base (CB) Characteristics 93 3-5 The Common-Emitter (C'f.) Configuration 96 3-6 Cutoff and Saturation Modes 100 3-7 DC Models 104 3-8 The BJT as a Switch 110 3-9 The BJT as an Amplifier 114 3-10 The BJT Small-Signal Model 118 3-11 The BJT as a Diode 123 3-12 The Emitter-Coupled Pair 125 3-13 Transistor Ratings 128 4 Field-Effect Transistors 133 -- 4-1 The Ideal Voltage-Controlled Current Source 133 4-2 The Junction Field-Effect Transistor 135 4-3 The JFET Volt-Ampere Characteristics 137 4-4 The JFET Transfer Characteristic 141 4-5 The MESFET 142 4-6 The Enhancement MOSFET 142 4-7 The Enhancement MOSFET Volt-Ampere Characteristics 145 4-8 The Depletion MOSFET 149 4-9 MOSFET Circuit Symbols 150 4-10 The DC Analysis of FETs 151 4-11 The MOSFET as a Resistance 154 4-12 The FET as a Switch 156 4-13 The FET as an Amplifier 160 4-14 Small-Signal FET Models 162 4-15 CMOS Devices 167 5. Integrated-Circuit Fabrication 172 5-1 Monolithic Integrated-Circuit (Microelectronic) Technology 172 5-2 The Planar Processes 176 5-3 Bipolar Transistor Fabrication 182 5-4 Fabrication of FETs 188 5-5 CMOS Technology 190 5-6 Monolithic Diodes 191 5-7 The Metal-Semiconductor Contact 193 5-8 Integrated-Circuit Resistors 194 5-9 Integrated-Circuit Capacitors 198 5-10 Integrated-Circuit Packaging 200 5-11 Characteristics of Integrated-Circuit Components 200 5-12 Microelectronic Circuit Layout 201 Part Two : DIGITAL CIRCUITS AND SYSTEMS -- 6. Basic Logic (Digital) Circuits 207 6-1 The Binary System 207 6-2 Boolean Algebra 209 6-3 The Exclusive-OR, nand, and nor Gates 215 6-4 Logic Gate Characteristics 219 6-5 The NMOS Inverter 226 6-6 Propagation Delay of an NMOS Inverter 232 6-7 NMOS Logic Gates 235 6-8 The CMOS Inverter 237 6-9 CMOS Logic Gates 238 6-10 The BJT Inverter 241 6-11 The TTL nand Gate 243 6-12 TTL Output Stages 246 6-13 TTL Logic Families 250 6-14 Emitter-Coupled Logic (ECL) Circuits 251 6-15 Comparison of Logic Families 260 7 Combinatorial Digital Circuits 264 7-1 Standard Gate Assemblies 264 7-2 Binary Adders 268 7-3 Arithmetic Functions 274 7-4 Digital Comparator 276 7-5 Parity Checker-Generator 278 7-6 Decoder-Demultiplexer 279 7-7 Data Selector-Multiplexer 284 7-8 Encoder 286 7-9 Read-Only Memory (ROM) 291 7-10 Two-Dimensional Addressing of a ROM 296 7-11 ROM Applications 298 7-12 Programmable ROMs (PROMs) 301 7-13 Erasable PROMs 302 7-14 Programmable Array Logic 304 7-15 Programmable Logic Arrays 306 8. Sequential Circuits and Systems 313 8-1 A 1-Bit Memory 313 8-2 The Circuit Properties of a Bistable Latch 316 8-3 The Clocked SR flip-flop 318 8-4 J-K-.T-, and D-Type flip-flops 320 8-5 Shift Registers 325 8-6 Ripple (Asynchronous) Counters 330 8-7 Synchronous Counters 334 8-8 Applications of Counters 337 9. Very Large Scale Integrated Systems 343 9-1 Dynamic MOS Shift Registers 344 9-2 Ratioless Shift-Register Stages 347 9-3 CMOS Domino Logic 350 9-4 Random-Access Memory (RAM) 352 9-5 Read-Write Memory Cells 356 9-6 Bipolar RAM Cells 364 9-7 Charge-Coupled Device (CCD) 366 9-8 CCD Structures 369 9-9 Integrated-Injection Logic (I2L) 373 9-10 Microprocessors and Microcomputers 378 Part Three : AMPLIFIER CIRCUITS AND SYSTEMS -- 10. Basic Amplifier Stages at Low Frequencies 387 10-1 Waveforms For a Sinusoidal Input 388 10-2 The Operating Point of a BJT 392 10-3 BJT Biasing for Integrated Circuits 394 10-4 The Widlar Current Source 397 10-5 Three-Transistor Current Sources 400 10-6 Discrete-Component BJT Biasing-Analysis 402 10-7 Discrete-Component Biasing-Design 406 10-8 FET Biasing 410 10-9 Linear Analysis of Transistor Circuits 414 10-10 The Common-Emitter Amplifier 416 10-11 The Emitter Follower 419 10-12 The Common-Base Amplifier 422 10-13 Comparison of BJT Amplifier Configurations 422 10-14 The Common-Emitter Amplifier with an Emitter Resistance 423 10-15 FET Amplifier Stages 425 10-16 Cascaded BJT Amplifiers 429 10-17 Compound (Composite) Transistor Stages 433 10-18 The Differential Amplifier 435 10-19 Analysis of Differential Amplifiers 437 10-20 FET Differential Amplifiers 441 10-21 The Operational Amplifier 442 10-22 Elementary Op-Amp Applications 447 11. Frequency Response off Amplifiers 454 11-1 Frequency-Response Characteristics 455 11-2 Step Response of an Amplifier 461 11-3 The Common-Emitter Short-Circuit Current Gain 464 11-4 The Generalized Gain Function 467 11-5 The High-Frequency Response of a Common-Emitter Stage 470 11-6 The Gain-Bandwidth Product 473 11-7 The Common-Source Stage at High Frequency 474 11-8 Emitter and Source Followers at High Frequencies 476 11-9 The Time-Constant Method of Obtaining the Response 482 11-10 The Frequency Response of Cascaded Stages 489 11-11 The Cascode (CE-CB) Amplifier 495 11-12 The Operational Amplifier at High Frequencies 498 11-13 The Effect of Coupling and Bypass Capacitors 500 12. Feedback Amplifiers 506 12-1 Classification and Representation of Amplifiers 507 12-2 The Feedback Concept 510 12-3 The Ideal Feedback Amplifier 513 12-4 Properties of Negative-Feedback Amplifiers 516 12-5 Impedance in Feedback Amplifiers 522 12-6 Properties of Feedback Amplifier Topologies 526 12-7 Approximate Analysis of a Feedback Amplifier 529 12-8 General Analysis of Feedback Amplifiers 534 12-9 Impedance in Feedback Amplifiers Revisited 541 12-10 The Shunt-Feedback Triple 543 12-11 The Shunt-Series Pair 549 12-12 The Series-Shunt Pair 559 12-13 The Series Triple 553 12-14 General Analysis of Multistage Feedback Amplifiers 555 12-15 Multiloop Feedback Amplifiers 558 13. Stability and Response of Feedback Amplifiers 564 13-1 Effect of Feedback on Bandwidth 564 13-2 Stability 567 13-3 Tests for Stability 569 13-4 Compensation 575 13-5 Frequency Response of Feedback Amplifiers-The Double-Pole Transfer Function 579 13-6 Phase Margin of the Two-Pole Feedback Amplifier 585 13-7 Three-Pole Feedback Amplifier Response 589 13-8 Approximate Analysis of a Multipole Feedback Amplifier 589 13-9 Approximate Determination of the Open-Loop Poles 592 13-10 Compensation Revisited 602 14.

Operational-Amplifier Characteristics 609 14-1 Operational Amplifier Architectures 609 14-2 The Gain Stage with Active Load 611 14-3 The Differential Stage 616 14-4 DC Level Shifting 622 14-5 Output Stages 624 14-6 Offset Voltages and Currents 627 14-7 Measurement of Operational-Amplifier Parameters 631 14-8 Frequency Response and Compensation 634 14-9 Slew Rate 641 14-10 BIFET and BIMOS Circuits 643 14-11 Three-Stage Operational Amplifiers 644 14-12 Other Types of Operational Amplifiers 645 14-13 MOS Operational Amplifiers 651 Part Four : SIGNAL PROCESSING AND DATA ACQUISITION -- 15. Waveform Generators and Waveshaping 659 15-1 Sinusoidal Oscillators 659 15-2 The Phase-Shift Oscillator 661 15-3 The Wien Bridge Oscillator 663 15-4 A General Form of Oscillator Configuration 665 15-5 Crystal Oscillators 668 15-6 Multivibrators 669 15-7 Comparators 675 15-8 Square-Wave Generation From a Sinusoid 677 15-9 Regenerative Comparator (Schmitt Trigger) 679 15-10 Square-Wave and Triangle-Wave Generators 683 15-11 Pulse Generators 688 15-12 The 555 1C Timer 690 15-13 Voltage Time-Base Generators 693 15-14 Step (Staircase) Generators 697 15-15 Modulation of a Square Wave 699 16. Signal Conditioning and Data Conversion 706 16-1 Signals and Signal Processing 706 16-2 Sample-and-Hold Systems 711 16-3 Analog Multiplexer and Demultiplexer 713 16-4 Digital-to-Analog (D/A) Converters 715 16-5 Analog-to-Digital (A/D) Converters 719 16-6 Integrator and Differentiator Circuits 724 16-7 Electronic Analog Computation 727 16-8 Active-/?C Filters 729 16-9 Butterworth and Chebyshev Filter Functions 732 16-10 Single-Amplifier Biquad Sections 738 16-11 Multiple Op-Amp Biquad Sections 748 16-12 Switched-Capacitor Filters 751 16-13 Logarithmic and Exponential Amplifiers 756 16-14 Analog Multipliers 760 16-15 Precision AC/DC Converters 763 Part Five : LARGE-SIGNAL ELECTRONICS -- 17. Power Circuits and Systems 773 17-1 AC to DC Conversion 773 17-2 Rectifiers 774 17-3 Other Full-Wave Circuits 780 17-4 Capacitor Filters 781 17-5 Regulated Power Supplies 785 17-6 Monolithic Regulators 787 17-7 A Switching Regulator 790 17-8 Additional Switching Regulator Topologies 793 17-9 Large-Signal Amplifiers 797 17-10 Harmonic Distortion 798 17-11 Amplifier Classification 8Q2 17-12 Efficiency of a Class A Amplifier 802 17-13 Class B Push-Pull Amplifiers 803 1^-14 Class AB Operation 807 17-15 Integrated-Circuit Power Amplifiers 808 17-16 Thermal Design Considerations 809 17-17 Power Field-Effect Transistor (VMOS) 812 APPENDIXES 818 A. Constants and Conversion Factors 818 B. Semiconductor Manufacturers and Device Specifications 820 C. Summary of Network Theory 832 D. Problems 868 E. Answers to Selected Problems 979 INDEX 987.

Overview: This book is an extensive rewritten version of the first edition, and a substantial amount of new material has been added to reflect changes in technology and curricula. The text, divided into five major sections, is organized to provide maximum pedagogical flexibility without loss of continuity. Thus, the individual faculty member can adapt the material to a number of different courses which suit the needs and interests of both students and professors.