Contents
CHAPTER 1 A NONLINEAR HISTORY OF RADIO
1.1 Introduction
1.2 Maxwell and Hertz
1.3 Pre--Vacuum Tube Electronics
1.4 Birth of the Vacuum Tube
1.5 Armstrong and the Regenerative Amp1ifier/Detector/Oscillator
1.6 Other Radio Circuits
1.7 Armstrong and the Superregenerator
1.8 Oleg Losev and the First Solid--State Amplifier
1.9 Epilog
1.10 Appendix: A Vacuum Tube Primer
CHAPTER2 CHARACTERISTICS OF PASSIVE IC COMPONENTS
2.1 Introduction
2.2 Resistors
2.3 Capacitors
2.4 Inductors
2.5 Summary
2.6 Appendix: Summary of Capacitance Equations
Problem Set
CHAPTER 3 A REVIEW OF MOS DEVICE PHYSICS
3.1 Introduction
3.2 A Little History
3.3 FETs: The Short Story
3.4 MOSFET Physics: The Long--Channel Approximation
3.5 Operation in Weak Inversion SubthTesho1d
3.6 MOS Device Physics in the Short--Channel Regime
3.7 Other Effects
3.8 Transit Time Effects
3.9 Summary
3.10 Appendix: 0.5 -um level--3 SPICE Models
Problem Set
CHAPTER 4 PASSIVE RLCNETWORKS
4.1 Introduction
4.2 Parallel RLC Tank
4.3 Series RLC Networks
4.4 Other resonant RLC networks
4.5 RLC Networks as Impedance Transformers
4.6 Examples
Problem Set
CHAPTER 5 DISTRIBUTED SYSTEMS
5.1 Introduction
5.2 Link Between Lumped and Distributed Regimes
5.3 Driving--Point Impedance of Iterated Structures
5.4 Transmission Lines in More Detail
5.5 Behavior of Finite-Length Transmission Lines
5.6 Summary Of Transmission-Line Equations
5.7 Artificial Lines
5.8 Summary
Problem Set
CHAPTER 6 THE SMITH CHART AND S-PARAMETERS
6.1 Introduction
6.2 The Smith Chart
6.3 S-Parameters
6.4 Appendix: A Short Note on Units
6.5 Appendix: Why 50 or 75
Problem Set
CHAPTER 7 BANDWIDTH ESTIMATION TECHNlQUES
7.1 Introduction
7.2 The Method of Open-Circuit Time Constants
7.3 The Method of Short-Circuit Time Constants
7.4 Further Reading
7.5 Risetime, Delay, and Bandwidth
7.6 Summary
Problem Set
CHAPTER 8 HIGH-FREQUENCY AMPLIFIER DESIGN
8.1 Introduction
8.2 Zeros as Bandwidth Enhancers
8.3 The Shunt-Series Amplifier
8.4 Bandwidth Enhancement with IT Doublers
8.5 Tuned Amplifiers
8.6 Neutralization and Unilateralization
8.7 Cascaded Amplifiers
8.8 Summary
Problem Set
CHAPTER 9 VOLTAGE REFERENCES AND BIASING
9.1 Introduction
9.2 Review Of Diode Behavior
9.3 Diodes and Bipolar Transistors in CMOS Technology
9.4 Supply-Independent Bias Circuits
9.5 Bandgap Voltage Reference
9.6 Constant-g Bias
9.7 Summary
Problem Set
CHAPTER 10 NOISE
10.1 Introduction
10.2 Thermal Noise
10.4 Flicker Noise
10.6 Classical Two-Port Noise Theory
10.7 Examples of Noise Calculations
10.8 A Handy Rule Of Thumb
10.9 Typical Noise Performance
10.10 Appendix: Noise Models
Problem Set
CHAPTER 11 LNA DESIGN
11.1 Introduction
11.2 Derivation of MOSFET Two-Port Noise Parameters
11.3 LNA Topologies: Power Match versus Noise Match
11.4 Power-Constrained Noise Optimization
11.5 Design Examples
11.6 Linearity and Large-Signal Performance
11.7 Spurious-Free Dynamic Range
11.8 Summary
Problem Set
CHAPTER 12 MIXERS
12.1 Introduction
12.2 Mixer Fundamentals
12.3 Nonlinear Systems as Linear Mixers
12.4 Multiplier Based Mixers
12.5 Subsampling Mixers
12.6 Appendix: Diode-Ring Mixers
Problem Set
CHAPTER 13 RF POWER AMPLIFIERS
13.1 Introduction
13.2 General Considerations
13.3 Class A, AB, B, and C Power Amplifiers
13.4 Class D Amplifiers
13.5 Class E Amplifiers
13.6 Class F Amplifiers
13.7 Modulation of Power Amplifiers
13.8 Summary of PA Characteristics
13.9 RF PA Design Examples
13.10 Additional Design Considerations
13.11 Design Summary
Problem Set
CHAPTER 14 FEEDBACK SYSTEMS
14.1 Introduction
14.2 A Brief History of Modem Feedback
14.3 A Puzzle
14.4 Desensitivity of Negative Feedback Systems
14.5 Stability of Feedback Systems
14.6 Gain and Phase Margin as Stability Measures
14.7 Root-Locus Techniques
14.8 Summary of Stability Criteria
14.9 Modeling Feedback Systems
14.10 Errors in Feedback Systems
14.11 Frequency- and Time-Domain Characteristics of First- and Second-Order Systems
14.12 Useful Rules of Thumb
14.13 Root-Locus Examples and Compensation
14.14 Summary of Root-Locus Techniques
14.15 Compensation
14.16 Compensation through Gain Reduction
14.17 Lag Compensation
14.18 Lead Compensation
14.19 Summary of Compensation
Problem Set
CHAPTER 15 PHASE-LOCKED LOOPS
15.1 Introduction
15.2 A Short History of PLLs
15.3 Linearzed PLL Models
15.4 Some Noise Properties of PLLs
15.5 Phase Detectors
15.6 Sequential Phase Detectors
15.7 Loop Filters and Charge Pumps
15.8 PLL Design Examples
15.9 Summary
Problem Set
CHAPTER 16 OSCILLATORS AND SYNTHESIZERS
16.1 Introduction
16.2 The Problem with Purely Linear Oscillators
16.3 Describing Functions
16.4 Resonators
16.5 A Catalog of Tuned Oscillators
16.6 Negative Resistance Oscillators
16.7 Frequency Synthesis
16.8 Summary
Problem Set
CHAPTER 17 PHASE NOISE
17.1 Introduction,
17.2 General Considerations
17.3 Detailed Considerations: Phase Noise
17.4 The Hajimiri Model: A Time-Varying Phase Noise Theory
17.5 Summary
Problem Set
CHAPTER 18 ARCHITECTURES
18.1 Introduction
18.2 Dynamic Range
18.3 Subsampling
18.4 Transmitter Architectures
18.5 Oscillator Stability
18.6 Summary
Problem Set
CHAPTER 19 RF CIRCUITS THROUGH THE AGES
19.1 Introduction
19.2 Armstrong
19.3 The All-American 5-Tube Superhet
19.4 The Regency TR-l Transistor Radio
19.5 Three-Transistor Toy CB Walkie-Talkie
INDEX
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