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《Digital Clocks for Synchronization and Communications》

Contents

Preface xv

1 Introduction to Clocks 1

1.1 Clocks in Digital Systems 1

1.2 Synchronization in Systems and Networks 2

1.3 Clock Frequency Synchronization Technology 3

1.4 Clock Generation Technology 3

References 4

2 Basics of Clock Synchronization and Generation 5

2.1 The General Concept of Synchronization 5

2.2 Clock Synchronization 6

2.2.1 Frequency Synchronization 7

2.2.2 Phase Synchronization 7

2.3 Clock Frequency Generation 8

2.4 Trends in Phase Synchronization and Clock Generation 9

vii

3 Signal Processing Fundamentals 11

3.1 Signal Processing and Systems 11

3.1.1 Signal Processing 11

3.1.2 Linear System 12

3.1.3 Fourier Transform 12

3.2 Digital Signal Processing 13

3.2.1 Digital System 13

3.2.2 Analog and Digital Signals 14

3.2.3 Spectrum 17

3.2.4 Method of Calculating DFT 18

3.2.5 Description of Signals and Systems in the Frequency

Domain 19

3.2.6 Laplace Transform 19

3.2.7 z-transform 21

3.2.8 Fundamental Property 22

3.2.9 Spectrum Estimation 22

3.3 Digital Filters 24

3.3.1 What Is a Digital Filter? 24

3.3.2 Linear Digital Filter 25

3.3.3 Design Methods for Digital Filters 26

3.3.4 Key Points in Designing a Digital Filter 27

References 28

4 Introduction to PLLs 29

4.1 Basic Mechanisms in Phase Synchronization 29

4.2 Element Operation 30

4.2.1 Phase Comparator Characteristics 30

4.2.2 Controlled Oscillator Characteristics 32

4.2.3 Filter Characteristics 33

4.3 Classification of PLLs 34

4.3.1 Analog PLL 35

4.3.2 Analog-Digital PLL 36

viii Digital Clocks for Synchronization and Communications

4.3.3 Digital PLL 36

4.3.4 Digital Processing PLL 36

4.4 PLL Applications 37

4.4.1 Synthesizer 37

4.4.2 Filter (Resonator) 38

4.4.3 Demodulator 38

4.4.4 Automatic Control System 39

4.5 PLL Characteristics 40

4.5.1 Cycle Slip 40

4.5.2 Influence of External Disturbances on Synchronization 40

4.5.3 Loop Gain 44

4.5.4 Lowpass Characteristics 46

4.5.5 Steady-State Phase Error 47

4.5.6 Synchronization Ranges 49

Reference 50

5 PLL Characteristic Analysis 51

5.1 Basic Analysis of PLL Characteristics 51

5.1.1 Issues Related to the Output Frequency 51

5.1.2 Relationship Between Frequency and Phase 53

5.1.3 Relation Based on the Input and Output Phase

Difference 54

5.2 Basic Characteristics 55

5.2.1 Transfer Function 55

5.2.2 Steady-State Phase Error 56

5.2.3 Synchronization Range 57

5.3 Transfer Function and Response Characteristic of the

First-Order Loop PLL 61

5.3.1 Transfer Function in an Analog Circuit 61

5.3.2 Transfer Function in Digital PLLs 62

5.3.3 Phase and Frequency Response of the First-Order Loop 66

5.4 Transfer Function and Second-Order Loop Response 69

Contents ix

5.4.1 Transfer Function in Analog PLLs 69

5.4.2 Transfer Function in Digital PLLs 72

5.4.3 Phase and Frequency Response of a Second-

Order Loop 75

References 79

6 Simulation of a Digital PLL 81

6.1 Transfer Function Analysis 81

6.2 Transient Response Simulation 82

6.3 Steady-State Phase Error Simulation 85

6.3.1 Simulating the Steady-State Phase Error of a First-

Order Loop 86

6.3.2 Simulating the Steady-State Phase Error of a Second-

Order Loop 87

Reference 88

7 Clock Systems in Networks 89

7.1 Wired Systems 89

7.1.1 Clocks in Digital Systems 89

7.1.2 Clocks in Transmission Systems 90

7.1.3 Clock System for Network Synchronization 93

7.1.4 Clock System Across Multiple Links 95

7.2 Wireless Systems 96

7.2.1 The Effects of Network Topologies on Clock and

Frequency Synchronization 96

7.2.2 Synchronization and Frequency Control Arrangements

for Radio Networks 101

References 104

8 Digital Synchronization System Design 107

8.1 Basic Design 107

8.2 Basic Configuration 108

x Digital Clocks for Synchronization and Communications

8.3 DCO Design 108

8.3.1 Oscillators and Their Selection 108

8.3.2 Digital Control System 110

8.4 Digital Processing Phase Comparator 111

8.5 Digital Control 111

8.5.1 Gain Adjustment in the Phase Comparator 111

8.5.2 Gain Adjustment in the Controlled Oscillator 113

8.6 Frequency Range of the Controlled Oscillator 116

8.7 Time Constant and Synchronization Range 120

8.8 Loop Filter Configuration and Transfer Function 122

8.9 Noise Performance 124

8.9.1 Jitter Accumulation in Digital PLLs 124

8.9.2 Short-Term Frequency Stability of a PLL 125

8.9.3 Noise Influence on the PLL Transfer Function 126

8.9.4 Optimum Time Constant 127

8.10 Actions Against Input Signal Problems 130

8.10.1 Input Phase Jump 130

8.10.2 Frequency Holdover 132

References 132

9 PLL LSI 135

9.1 PLL in Transmission Interfaces 135

9.2 Basic Configuration of Transmission Clock Recovery

Circuit 135

9.3 Signal Receiving and Regeneration Circuit Using PLL 136

9.3.1 PLL Input Signal 136

9.3.2 Phase and Frequency Comparison Circuits 138

9.3.3 Frequency Holding Function 139

9.3.4 Expansion of Synchronization Range 139

9.4 CDR Based on the PLL 140

Contents xi

9.5 Transmission Clock Generation Circuit 140

9.6 PLL Circuits in Wireless Systems 141

References 143

10 Frequency Generation Systems 145

10.1 The Need for Frequency Generation 145

10.2 The Evolution of Frequency Synchronization and

Generation Systems 145

10.3 Ideal Clock Generation Using Digital Signal

Processing 146

10.4 DDS Characteristics 148

References 149

11 DDS Circuit Configuration and Characteristics 151

11.1 Basic Parameters 151

11.1.1 Output Frequency 151

11.1.2 Frequency Control Resolution 155

11.2 Spectrum 156

11.2.1 Adder Output Waveform 158

11.2.2 Phase Error Due to Binary Width Limitation in the

Sine Wave Conversion Part 160

11.2.3 Spectrum of the Sine Wave Conversion Part 163

11.2.4 Spectrum in the DAC Output 167

11.2.5 Output Filter 170

11.3 New Design Methodology 172

11.3.1 Spurious Component Reduction 172

11.3.2 Circuit Scale Reduction 174

References 177

12 Some DDS Applications 179

12.1 DDS Trends 179

xii Digital Clocks for Synchronization and Communications

12.2 Synthesizer 179

12.3 Combination of DDS and PLL 180

12.4 Atomic Frequency Standards 182

12.5 DDS Circuits in Wireless Systems 183

References 184

13 Noise in Clocks 185

13.1 Frequency Stability and Noise 185

13.2 Relationship Between Sine Wave and Noise 185

13.2.1 Noise in the Frequency Domain 185

13.2.2 Noise in Time Domain 186

13.3 Noise Processing 188

13.3.1 Noise Characteristics in PLL 188

13.3.2 Noise in Frequency Conversion 189

13.3.3 Noise Power 191

13.4 Phase Noise and Frequency Noise 192

13.5 Frequency Components of Noise 194

13.6 Other Measures for Spectrum Analysis 197

13.7 Variance and Power Spectral Density 199

13.7.1 Sample Variance 199

13.7.2 Sample Variance and Power Spectral Density 200

References 202

14 Noise Measurement 203

14.1 Variance Measurement in the Time Domain 203

14.1.1 Measurement of the Two-Sample Variance with a

Frequency Counter 203

14.1.2 Two-Sample Measurement with a Time Interval

Counter 207

Contents xiii

14.2 Spectrum Measurement in the Frequency Domain 210

14.2.1 Direct Measurement of Frequency Spectrum 210

14.2.2 Phase Synchronization Method for Phase Noise

Frequency Spectrum