Phase-Locked Loop Synthesizer Simulation
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Preface Chapter 1: Phase-Locked Loop Basics 1.1 Introduction 1.2 PLL Working Principles 1.3 Laplace and Fourier Transforms 1.3.1 Definitions 1.3.2 Basic properties 1.3.3 Transforms of some important functions 1.4 PLL Transfer Functions 1.4.1 PLL stability analysis 1.5 PLL Order and PLL Type 1.6 First-Order PLL 1.7 Second-Order PLL 1.8 References Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
1.1 Introduction 1.2 PLL Working Principles 1.3 Laplace and Fourier Transforms 1.3.1 Definitions 1.3.2 Basic properties 1.3.3 Transforms of some important functions 1.4 PLL Transfer Functions 1.4.1 PLL stability analysis 1.5 PLL Order and PLL Type 1.6 First-Order PLL 1.7 Second-Order PLL 1.8 References Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
1.3 Laplace and Fourier Transforms 1.3.1 Definitions 1.3.2 Basic properties 1.3.3 Transforms of some important functions 1.4 PLL Transfer Functions 1.4.1 PLL stability analysis 1.5 PLL Order and PLL Type 1.6 First-Order PLL 1.7 Second-Order PLL 1.8 References Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
1.3.2 Basic properties 1.3.3 Transforms of some important functions 1.4 PLL Transfer Functions 1.4.1 PLL stability analysis 1.5 PLL Order and PLL Type 1.6 First-Order PLL 1.7 Second-Order PLL 1.8 References Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
1.4 PLL Transfer Functions 1.4.1 PLL stability analysis 1.5 PLL Order and PLL Type 1.6 First-Order PLL 1.7 Second-Order PLL 1.8 References Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
1.5 PLL Order and PLL Type 1.6 First-Order PLL 1.7 Second-Order PLL 1.8 References Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
1.7 Second-Order PLL 1.8 References Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
Chapter 2: Loop Components 2.1 Introduction 2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.2 Phase Detector 2.2.1 Multiplier as phase detector 2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.2.2 Phase frequency detector 2.3 Loop Filter 2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.3.1 Reference spur filtering 2.3.2 Loop filters for voltage output phase detectors 2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.3.3 Loop filters for charge pump 2.3.4 Loop filter scaling 2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.4 VCO 2.4.1 Principle of working 2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.4.2 VCO analysis 2.4.3 Phase Noise 2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.4.4 Pulling and pushing 2.5 Reference Sources 2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.6 Frequency Dividers 2.6.1 Frequency divider phase noise 2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
2.7 References Chapter 3: Fractional-N Frequency Divider 3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
3.1 Introduction 3.2 Single-Accumulator Fractional Divider 3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
3.3 Multiple-Accumulator Fractional Dividers 3.3.1 Z transform 3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
3.3.2 First-order _-_ modulator 3.3.3 Higher-order _-_ converters 3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
3.3.4 Multiple-accumulator fractional-N phase noise 3.4 References Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
Chapter 4: Synthesizer Performance Simulation 4.1 Introduction 4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
4.2 Simulation Techniques 4.3 Phase Noise 4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
4.3.1 Definitions 4.3.2 Phase noise of PLL synthesizer 4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
4.4 Modulation of the PLL 4.4.1 Modulation of the reference oscillator only 4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
4.4.2 Modulation of the VCO only 4.4.3 Dual-point modulation 4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
4.5 Settling Time 4.5.1 Lock-in 4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
4.5.2 Pull-in 4.6 Final Note on Circuit-Based Simulation 4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
4.7 References Chapter 5: Miscellaneous 5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
5.1 Introduction 5.2 PLL Performance Verification 5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
5.2.1 Measurement of PLL frequency response magnitude 5.3 Sampling Phase Detector 5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
5.4 Multiple-Loop PLL 5.4.1 Phase noise of multiple-loop PLL 5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
5.4.2 Transients in multiple-loop PLL 5.4.3 Variations on double-loop architecture 5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
5.5 Direct Digital Synthesizer 5.5.1 Principle of DDS operation 5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
5.5.2 Effects of nonideal components on DDS performance 5.5.3 Enhancements of DDS architecture 5.6 References Index
5.6 References Index
Phase Locked Loop frequency synthesis is a key component of all wireless systems. This is a complete toolkit for PLL synthesizer design, with MathCAD, SIMetrix files included on CD, allowing readers to perform sophisticated calculation and simulation exercises.
Describes how to calculate PLL performance by using standard mathematical or circuit analysis programs