Foreword xiii Preface xv 1 Introduction to Wireless Circuit Design 1 1.1 Introduction 1 1.2 System Functions 3 1.3 The Radio Channel and Modulation Requirements 5 1.4 About Bits, Symbols, and Waveforms 29 1.5 Analysis of Wireless Systems 50 1.6 Building Blocks 78 1.7 System Specifications and Their Relationship to Circuit Design 79 1.

8 Testing 108 1.9 Converting C/N or SNR to EB/N0 123 2 Models for Active Devices 127 2.1 Diodes 128 2.2 Bipolar Transistors 203 2.3 Field-Effect Transistors 239 2.4 Large-Signal Behavior of JFETs 248 2.5 Parameter Extraction of Active Devices 324 3 Amplifier Design with BJTs and FETs 359 3.1 Properties of Amplifiers 359 3.

2 Amplifier Gain, Stability, and Matching 423 3.3 Single-Stage Feedback Amplifiers 484 3.4 Two-Stage Amplifiers 490 3.5 Amplifiers with Three or More Stages 499 3.6 A Novel Approach to Voltage-Controlled Tuned Filters Including CAD Validation 505 3.7 Differential Amplifiers 514 3.8 Frequency Doublers 518 3.9 Multistage Amplifiers with Automatic Gain Control (AGC) 524 3.

10 Biasing 524 3.11 Push-Pull/Parallel Amplifiers 539 3.12 Power Amplifiers 542 4 Mixer Design 637 4.1 Introduction 637 4.2 Properties of Mixers 640 4.3 Diode Mixers 654 4.4 Transistor Mixers 685 5 RF/Wireless Oscillators 727 5.1 Introduction of Frequency Control 727 5.

2 Background 727 5.3 Oscillator Design 728 5.4 Oscillator Circuits 744 5.5 Design of RF Oscillators 746 5.6 Noise in Oscillators 781 5.7 Oscillators in Practice 803 5.8 Phase-Noise Improvements of Integrated RF and Millimeterwave Oscillators 814 6 Wireless Synthesizers 831 6.1 Introduction 831 6.

2 Phase-Locked Loops 831 6.3 How to Do a Practical PLL Design Using CAD 859 6.4 Fractional-N-Division PLL Synthesis 864 6.5 Direct Digital Synthesis 871 References 879 Interesting Patents 880 Further Reading 881 Index 883.