Analog and Mixed-Signal Electronics
Karl Stephan
Analog and Mixed-Signal Electronics
Karl Stephan
- Wydawnictwo: John Wiley
- Rok wydania: 2015
- ISBN: 9781118782668
- Ilość stron: 528
- Oprawa: Twarda
Niedostępna
Opis: Analog and Mixed-Signal Electronics - Karl Stephan
A practical guide to analog and mixed-signal electronics, with an emphasis on design problems and applications This book provides an in-depth coverage of essential analog and mixed-signal topics such as power amplifiers, active filters, noise and dynamic range, analog-to-digital and digital-to-analog conversion techniques, phase-locked loops, and switching power supplies. Readers will learn the basics of linear systems, types of nonlinearities and their effects, op-amp circuits, the high-gain analog filter-amplifier, and signal generation. The author uses system design examples to motivate theoretical explanations and covers system-level topics not found in most textbooks. Provides references for further study and problems at the end of each chapter Includes an appendix describing test equipment useful for analog and mixed-signal work Examines the basics of linear systems, types of nonlinearities and their effects, op-amp circuits, the high-gain analog filter-amplifier, and signal generation Comprehensive and detailed, Analog and Mixed-Signal Electronics is a great introduction to analog and mixed-signal electronics for EE undergraduates, advanced electronics students, and for those involved in computer engineering, biomedical engineering, computer science, and physics.Preface xi Acknowledgments xiii 1 Introduction to Analog and Mixed-Signal Electronics 1 1.1 Introduction 1 1.2 Organization of the Book 3 1.2.1 Chapter 2: Basics of Electronic Components and Devices 3 1.2.2 Chapter 3: Linear System Analysis 3 1.2.3 Chapter 4: Nonlinearities in Analog Electronics 3 1.2.4 Chapter 5: Op Amp Circuits in Analog Electronics 4 1.2.5 Chapter 6: The Highu]Gain Analog Filter Amplifier 4 1.2.6 Chapter 7: Waveform Generation 4 1.2.7 Chapter 8: Analogu]tou]Digital and Digitalu]tou]Analog Conversion 4 1.2.8 Chapter 9: Phaseu]Locked Loops 4 1.2.9 Chapter 10: Power Electronics 5 1.2.10 Chapter 11: Highu]Frequency (Radiou]Frequency) Electronics 5 1.2.11 Chapter 12: Electromagnetic Compatibility 6 Bibliography 6 Problems 6 2 Basics of Electronic Components and Devices 8 2.1 Introduction 8 2.2 Passive Devices 9 2.2.1 Resistors 9 2.2.2 Capacitors 11 2.2.3 Inductors 12 2.2.4 Connectors 13 2.2.5 Antennas 14 2.3 Active Devices 15 2.3.1 Diodes 15 2.3.2 Fieldu]Effect Transistors 17 2.3.3 BJTs 22 2.3.4 Power Devices 24 Bibliography 29 Problems 30 3 Linear Systems Analysis 33 3.1 Basics of Linear Systems 33 3.1.1 Two-Terminal Component Models 34 3.1.2 Twou]Port Matrix Analysis 42 3.2 Noise and Linear Systems 48 3.2.1 Sources of Noise 49 3.2.2 Noise in Designs 53 Bibliography 56 Problems 56 Project Problem: Measurement of Inductor Characteristics 59 Equipment and Supplies 59 Description 59 4 Nonlinearities in Analog Electronics 62 4.1 Why All Amplifiers Are Nonlinear 62 4.2 Effects of Small Nonlinearity 63 4.2.1 Secondu]Order Nonlinearity 63 4.2.2 Thirdu]Order Nonlinearity 67 4.3 Largeu]Scale Nonlinearity: Clipping 69 4.4 The Big Picture: Dynamic Range 74 Bibliography 76 Problems 76 5 Op Amp Circuits in Analog Electronics 78 5.1 Introduction 78 5.2 The Modern Op Amp 80 5.2.1 Ideal Equivalentu]Circuit Model 80 5.2.2 Internal Block Diagram of Typical Op Amp 81 5.2.3 Op Amp Characteristics 85 5.3 Analog Circuits Using Op Amps 88 5.3.1 Linear Op Amp Circuits 92 5.3.2 Nonlinear Op Amp Circuits 105 Bibliography 115 Problems 115 6 The Highu]Gain Analog Filter Amplifier 124 6.1 Applications of Highu]Gain Filter Amplifiers 124 6.1.1 Audiou]Frequency Applications 125 6.1.2 Sensor Applications 126 6.2 Issues in Highu]Gain Amplifier Design 130 6.2.1 Dynamicu]Range Problems 130 6.2.2 Oscillation Problems 131 6.3 Poles Zeroes Transfer Functions and All That 134 6.4 Passive Analog Filters 137 6.4.1 Oneu]Pole Lowpass Filter 137 6.4.2 Oneu]Pole Oneu]Zero Highpass Filter 141 6.4.3 Complexu]Pole Bandpass Filter 143 6.4.4 Bandstop Filters 149 6.5 Active Analog Filters 149 6.5.1 Sallen-Key Lowpass Filter with Butterworth Response 150 6.5.2 Biquad Filter with Lowpass Bandpass or Highpass Response 158 6.5.3 Switchedu]Capacitor Filters 162 6.6 Design Example: Electric Guitar Preamp 164 Bibliography 169 Problems 169 7 Waveform Generation 175 7.1 Introduction 175 7.2 "Linear" Sineu]Wave Oscillators and Stability Analysis 176 7.2.1 Stable and Unstable Circuits: An Example 176 7.2.2 Poles and Stability 180 7.2.3 Nyquist Stability Criterion 181 7.2.4 The Barkhausen Criterion 186 7.2.5 Noise in Oscillators 189 7.3 Types of Feedbacku]Loop Quasilinear Oscillators 193 7.3.1 R-C Oscillators 195 7.3.2 Quartzu]Crystal Resonators and Oscillators 198 7.3.3 MEMS Resonators and Oscillators 202 7.4 Types of Twou]State or Relaxation Oscillators 204 7.4.1 Astable Multivibrator 205 7.4.2 555 Timer 207 7.5 Design Aid: Singleu]Frequency Series-Parallel and Parallel-Series Conversion Formulas 209 7.6 Design Example: BJT Quartzu]Crystal Oscillator 211 Bibliography 219 Problems 219 8 Analogu]tou]Digital and Digitalu]tou]Analog Conversion 225 8.1 Introduction 225 8.2 Analog and Digital Signals 226 8.2.1 Analog Signals and Measurements 226 8.2.2 Accuracy Precision and Resolution 227 8.2.3 Digital Signals and Concepts: The Sampling Theorem 230 8.2.4 Signal Measurements and Quantum Limits 234 8.3 Basics of Analogu]tou]Digital Conversion 235 8.3.1 Quantization Error 235 8.3.2 Output Filtering and Oversampling 237 8.3.3 Resolution and Speed of ADCs 239 8.4 Examples of ADC Circuits 242 8.4.1 Flash Converter 242 8.4.2 Successiveu]Approximation Converter 244 8.4.3 Deltau]Sigma ADC 245 8.4.4 Dualu]Slope Integration ADC 250 8.4.5 Other ADC Approaches 252 8.5 Examples of DAC Circuits 253 8.5.1 R-2R Ladder DAC 255 8.5.2 Switchedu]Capacitor DAC 256 8.5.3 Oneu]Bit DAC 258 8.6 Systemu]Level ADC and DAC Operations 259 Bibliography 262 Problems 262 9 Phase-Locked Loops 269 9.1 Introduction 269 9.2 Basics of PLLs 270 9.3 Control Theory for PLLs 271 9.3.1 Firstu]Order PLL 273 9.3.2 Secondu]Order PLL 274 9.4 The CD4046B PLL IC 280 9.4.1 Phase Detector 1: Exclusiveu]OR 280 9.4.2 Phase Detector 2: Charge Pump 282 9.4.3 VCO Circuit 285 9.5 Loop Locking Tuning and Related Issues 286 9.6 PLLs in Frequency Synthesizers 288 9.7 Design Example Using CD4046B PLL IC 289 Bibliography 294 Problems 294 10 Power Electronics 298 10.1 Introduction 298 10.2 Applications of Power Electronics 300 10.3 Power Supplies 300 10.3.1 Poweru]Supply Characteristics and Definitions 300 10.3.2 Primary Power Sources 303 10.3.3 ACu]tou]DC Conversion in Power Supplies 306 10.3.4 Linear Voltage Regulators for Power Supplies 309 10.3.5 Switching Power Supplies and Regulators 318 10.4 Power Amplifiers 337 10.4.1 Class A Power Amplifier 338 10.4.2 Class B Power Amplifier 346 10.4.3 Class AB Power Amplifier 347 10.4.4 Class D Power Amplifier 355 10.5 Devices for Power Electronics: Speed and Switching Efficiency 360 10.5.1 BJTs 361 10.5.2 Power FETs 361 10.5.3 IGBTs 361 10.5.4 Thyristors 362 10.5.5 Vacuum Tubes 362 Bibliography 363 Problems 363 11 Highu]Frequency (RF) Electronics 370 11.1 Circuits at Radio Frequencies 370 11.2 RF Ranges and Uses 372 11.3 Special Characteristics of RF Circuits 375 11.4 RF Transmission Lines Filters and Impedanceu]Matching Circuits 376 11.4.1 RF Transmission Lines 376 11.4.2 Filters for Radiou]Frequency Interference Prevention 385 11.4.3 Transmitter and Receiver Filters 387 11.4.4 Impedanceu]Matching Circuits 389 11.5 RF Amplifiers 400 11.5.1 RF Amplifiers for Transmitters 400 11.5.2 RF Amplifiers for Receivers 406 11.6 Other RF Circuits and Systems 416 11.6.1 Mixers 417 11.6.2 Phase Shifters and Modulators 420 11.6.3 RF Switches 423 11.6.4 Oscillators and Multipliers 423 11.6.5 Transducers for Photonics and Other Applications 426 11.6.6 Antennas 428 11.7 RF Design Tools 43 Bibliography 435 Problems 435 12 Electromagnetic Compatibility 446 12.1 What is Electromagnetic Compatibility? 446 12.2 Types of EMI Problems 448 12.2.1 Communications EMI 448 12.2.2 Noncommunications EMI 453 12.3 Modes of EMI Transfer 454 12.3.1 Conduction 454 12.3.2 Electric Fields (Capacitive EMI) 456 12.3.3 Magnetic Fields (Inductive EMI) 458 12.3.4 Electromagnetic Fields (Radiation EMI) 461 12.4 Ways to Reduce EMI 465 12.4.1 Bypassing and Filtering 465 12.4.2 Grounding 470 12.4.3 Shielding 474 12.5 Designing with EMI and EMC in Mind 479 12.5.1 EMC Regulators and Regulations 479 12.5.2 Including EMC in Designs 479 Bibliography 481 Problems 481 Appendix: Test Equipment for Analog and Mixedu]Signal Electronics 489 A.1 Introduction 489 A.2 Laboratory Power Supplies 490 A.3 Digital Voltu]Ohmu]Milliammeters 492 A.4 Function Generators 494 A.5 Oscilloscopes 496 A.6 Arbitrary Waveform Generators 499 A.7 Other Types of Analog and Mixedu]Signal Test Equipment 500 A.7.1 Spectrum Analyzers 500 A.7.2 Logic Analyzers 501 A.7.3 Network Analyzers 501 Index 502
Szczegóły: Analog and Mixed-Signal Electronics - Karl Stephan
Tytuł: Analog and Mixed-Signal Electronics
Autor: Karl Stephan
Wydawnictwo: John Wiley
ISBN: 9781118782668
Rok wydania: 2015
Ilość stron: 528
Oprawa: Twarda
Waga: 0.67 kg