Analog Integrated Circuits for Communication
by Pederson, Donald O.; Mayaram, KartikeyaEdition: 2nd
Format: Hardcover
Pub. Date: 2008-01-30
Publisher(s): Springer Verlag
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Summary
Analog Integrated Circuits for Communication: Principles, Simulation and Design, Second Edition covers the analysis and design of nonlinear analog integrated circuits that form the basis of present-day communication systems. Both bipolar and MOS transistor circuits are analyzed and several numerical examples are used to illustrate the analysis and design techniques developed in this book. Especially unique to this work is the tight coupling between the first-order circuit analysis and circuit simulation results. Extensive use has been made of the public domain circuit simulator Spice, to verify the results of first-order analyses, and for detailed simulations with complex device models.Highlights of the new edition include:A new introductory chapter that provides a brief review of communication systems, transistor models, and distortion generation and simulation.Addition of new material on MOSFET mixers, compression and intercept points, matching networks.Revisions of text and explanations where necessary to reflect the new organization of the bookSpice input files for all the circuit examples that are available to the reader from a website.Problem sets at the end of each chapter to reinforce and apply the subject matter.An instructors solutions manual is available on the book's webpage at springer.com.Analog Integrated Circuits for Communication: Principles, Simulation and Design, Second Edition is for readers who have completed an introductory course in analog circuits and are familiar with basic analysis techniques as well as with the operating principles of semiconductor devices. This book also serves as a useful reference for practicing engineers.
Table of Contents
| Review | p. 1 |
| Introduction | p. 1 |
| Amplitude and Frequency Modulations | p. 1 |
| The Super-Heterodyne Receiver | p. 3 |
| Transistor Models | p. 4 |
| Bipolar Junction Transistor (BJT) Model | p. 5 |
| MOSFET Model | p. 6 |
| Distortion Generation and Characterization | p. 8 |
| Noise | p. 12 |
| Problems | p. 13 |
| Large-Signal Performance of the Basic Gain Stages in Analog ICs | p. 15 |
| The Emitter-Coupled Pair | p. 15 |
| Large-Signal DC Transfer Characteristic of the ECP | p. 17 |
| Large-Signal Circuit Analysis of the ECP | p. 24 |
| Series Expansions to Obtain Distortion Components | p. 27 |
| The Source-Coupled Pair | p. 30 |
| A Series Expansion to Obtain Distortion Components for the SCP | p. 37 |
| Problems | p. 39 |
| Amplifier Power Series and Distortion | p. 43 |
| General Power Series Description | p. 43 |
| Common-Emitter Stage Example | p. 45 |
| The Ideal CE Stage with a Large Sinusoidal Input Voltage | p. 49 |
| Power Series and Fourier Series Characterizations | p. 54 |
| The Common-Source MOS Amplifier Stage | p. 59 |
| Intermodulation Distortion | p. 62 |
| Compression and Intercept Points | p. 68 |
| Problems | p. 69 |
| Distortion Generation with Source Resistance and Nonlinear Beta | p. 73 |
| Linearization of a Bipolar Stage Due to Source Resistance | p. 73 |
| Distortion Reduction with Source Resistance | p. 75 |
| The ECP with Source Resistance | p. 84 |
| Nonlinear Beta and Distortion | p. 88 |
| Example of Distortion due to Beta(I[subscript c]) | p. 96 |
| Problems | p. 97 |
| Distortion in Feedback Amplifiers | p. 101 |
| Effects of Negative Feedback | p. 101 |
| Feedback for a General Amplifier | p. 105 |
| A CE Stage with Shunt Feedback | p. 113 |
| The CE Stage With Emitter Feedback | p. 116 |
| Alternative Loop-Gain Calculations | p. 122 |
| Emitter Feedback in the ECP | p. 125 |
| Internal Feedback in the ECP and the SCP | p. 128 |
| Problems | p. 136 |
| Basic IC Output Stages | p. 139 |
| Requirements for an Output Stage | p. 139 |
| The Emitter Follower | p. 139 |
| Distortion Calculation using Differential Error | p. 145 |
| Power-Conversion Efficiency | p. 152 |
| The Source Follower | p. 156 |
| Push-Pull Emitter Followers | p. 159 |
| The Push-Pull Source Follower | p. 169 |
| Push-Pull, Single-Polarity Output Stages | p. 170 |
| Problems | p. 174 |
| Transformers | p. 181 |
| Introduction | p. 181 |
| Elementary Coupled Coils | p. 181 |
| Circuit Model for a Transformer | p. 189 |
| Inductive Two-Port Parameters | p. 189 |
| A Transformer-Coupled, Class-A BJT Output Stage | p. 194 |
| Maximum Power Transfer | p. 204 |
| Class-A Push-Pull Operation | p. 205 |
| Class-AB Operation | p. 213 |
| Problems | p. 214 |
| Tuned Circuits in Bandpass Amplifiers | p. 221 |
| Introduction | p. 221 |
| The Single-Tuned Circuit | p. 222 |
| Lowpass Equivalents | p. 225 |
| Transformer-Coupled Single-Tuned Circuits | p. 228 |
| Single-Tuned, Bandpass Circuits with Loosely Coupled Transformers | p. 229 |
| Double-Tuned Stages | p. 235 |
| Parallel-to-Series/Series-to-Parallel Transformations | p. 239 |
| Tuned Circuits as Impedance Transformers | p. 242 |
| Problems | p. 244 |
| Simple Bandpass Amplifiers | p. 247 |
| Simple Active RC Bandpass Amplifiers | p. 247 |
| An ECP Bandpass Amplifier | p. 251 |
| Synchronous Tuning, Cascading, and Bandwidth Shrinkage | p. 258 |
| Effects of Internal Feedback | p. 262 |
| Multistage Bandpass Design Example | p. 266 |
| Cross Modulation | p. 273 |
| Problems | p. 277 |
| Basic Electronic Oscillators | p. 281 |
| Instabilities, Oscillations and Oscillators | p. 281 |
| The Ideal Electronic Oscillator | p. 282 |
| A Tunnel-Diode Oscillator | p. 284 |
| The van der Pol Approximation | p. 287 |
| Tunnel-Diode Oscillator Example | p. 291 |
| Wien-Type Oscillators | p. 295 |
| Transformer-Coupled ECP Oscillators | p. 305 |
| Transformerless ECP Oscillators | p. 315 |
| Problems | p. 326 |
| Electronic Oscillators with Bias-Shift Limiting | p. 331 |
| Bias Shift during Oscillator Buildup in an ECP Oscillator | p. 331 |
| The Basic Oscillator Equation | p. 337 |
| Single-Device, Transformer-Coupled Oscillators | p. 339 |
| Bias Shift and Harmonic Balance | p. 343 |
| Transformer-Coupled MOS Oscillators | p. 352 |
| Squegging | p. 355 |
| Phase-Shift Oscillators | p. 359 |
| The Colpitts Oscillator | p. 362 |
| Crystal-Controlled Oscillators | p. 368 |
| Problems | p. 371 |
| Relaxation and Voltage-Controlled Oscillators | p. 377 |
| Relaxation-Mode Oscillations | p. 377 |
| Oscillator Graphical Analysis | p. 381 |
| Regenerative Switching in a Relaxation Oscillator | p. 386 |
| Recovery Analysis in a BJT Relaxation Feedback Oscillator | p. 390 |
| Other Astable Oscillators | p. 394 |
| A CMOS Relaxation Oscillator | p. 397 |
| Voltage- and Current-Controlled Oscillators | p. 400 |
| An Astable Schmitt Circuit | p. 403 |
| Equivalence of the Schmitt and Loop-Coupled Bistable Circuits | p. 406 |
| A BJT VCO | p. 406 |
| Problems | p. 413 |
| Analog Multipliers, Mixers, Modulators | p. 417 |
| The Emitter-Coupled Pair as a Simple Analog Multiplier | p. 417 |
| A Subtraction Improvement | p. 421 |
| Predistortion and Linearity Improvement in the ECP | p. 425 |
| The Gilbert Cell | p. 429 |
| MOS Analog Multipliers | p. 431 |
| Mixing, Modulation and Frequency Translation | p. 434 |
| The Fully Balanced (Quad) Mixer | p. 436 |
| Single-Device Mixers | p. 439 |
| BJT Mixers | p. 440 |
| MOSFET Mixers | p. 445 |
| Modulators | p. 448 |
| Problems | p. 450 |
| Demodulators and Detectors | p. 457 |
| AM Demodulation using Analog Multipliers | p. 457 |
| Synchronous AM Detection | p. 461 |
| Peak Detectors | p. 462 |
| Automatic Gain Control | p. 471 |
| FM Demodulation, Off-Peak Detection | p. 473 |
| Discriminators | p. 477 |
| FM Demodulators using Multipliers | p. 480 |
| Problems | p. 482 |
| Phase-Locked Loops | p. 485 |
| Basic Configurations and Applications | p. 485 |
| A Simple Circuit Model of a PLL | p. 488 |
| Voltage-Controlled Oscillator (VCO) | p. 490 |
| Filter | p. 491 |
| Phase Comparator (PC) | p. 491 |
| PLL Operation | p. 493 |
| The Small-Signal Analysis of the PLL | p. 495 |
| Dynamics of the PLL in the Locked Condition | p. 499 |
| One-Pole Filter | p. 501 |
| One-Zero, One-Pole Filter | p. 504 |
| The Lock and Capture Ranges | p. 506 |
| Lock Range | p. 507 |
| Capture Range | p. 508 |
| Capture Examples | p. 510 |
| PLLs with Overdriven PCs and Relaxation Oscillators | p. 512 |
| PLL Design Example | p. 515 |
| PLL Parameters for a Typical IC Realization | p. 516 |
| A PLL Example with a FM input | p. 518 |
| Problems | p. 519 |
| References | p. 525 |
| Index | p. 529 |
| Table of Contents provided by Ingram. All Rights Reserved. |
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