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ALL-DIGITAL FREQUENCY SYNTHESIZER IN DEEP-SUBMICRON CMOS

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发表于 2007-2-13 23:39:45 | 显示全部楼层 |阅读模式

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x
ROBERT BOGDAN STASZEWSKI
Texas Instruments
PORAS T. BALSARA
University of Texas at Dallas

A JOHN WILEY & SONS, INC., PUBLICATION

CONTENTS
PREFACE xiii
1 INTRODUCTION 1
1.1 Frequency Synthesis / 1
1.1.1 Noise in Oscillators / 2
1.1.2 Frequency Synthesis Techniques / 5
1.2 Frequency Synthesizer as an Integral Part of an RF Transceiver / 9
1.2.1 Transmitter / 10
1.2.2 Receiver / 11
1.2.3 Toward Direct Transmitter Modulation / 12
1.3 Frequency Synthesizers for Mobile
Communications / 16
1.3.1 Integer-N PLL Architecture / 17
1.3.2 Fractional-N PLL Architecture / 18
1.3.3 Toward an All-Digital PLL Approach / 23
1.4 Implementation of an RF Synthesizer / 25
1.4.1 CMOS vs. Traditional RF Process Technologies / 25
1.4.2 Deep-Submicron CMOS / 25
1.4.3 Digitally Intensive Approach / 26
1.4.4 System Integration / 27
vii
1.4.5 System Integration Challenges for
Deep-Submicron CMOS / 29
2 DIGITALLY CONTROLLED OSCILLATOR 30
2.1 Varactor in a Deep-Submicron CMOS Process / 31
2.2 Fully Digital Control of Oscillating Frequency / 33
2.3 LC Tank / 35
2.4 Oscillator Core / 37
2.5 Open-Loop Narrowband Digital-to-Frequency Conversion / 39
2.6 Example Implementation / 45
2.7 Time-Domain Mathematical Model of a DCO / 47
2.8 Summary / 51
3 NORMALIZED DCO 52
3.1 Oscillator Transfer Function and Gain / 52
3.2 DCO Gain Estimation / 53
3.3 DCO Gain Normalization / 54
3.4 Principle of Synchronously Optimal DCO
Tuning Word Retiming / 55
3.5 Time Dithering of DCO Tuning Input / 56
3.5.1 Oscillator Tune Time Dithering Principle / 56
3.5.2 Direct Time Dithering of Tuning Input / 57
3.5.3 Update Clock Dithering Scheme / 59
3.6 Implementation of PVT and Acquisition DCO Bits / 60
3.7 Implementation of Tracking DCO Bits / 64
3.7.1 High-Speed Dithering of Fractional Varactors / 64
3.7.2 Dynamic Element Matching of Varactors / 70
3.7.3 DCO Varactor Rearrangement / 71
3.8 Time-Domain Model / 73
3.9 Summary / 74
4 ALL-DIGITAL PHASE-LOCKED LOOP 76
4.1 Phase-Domain Operation / 77
4.2 Reference Clock Retiming / 79
4.3 Phase Detection / 81
4.3.1 Difference Mode of ADPLL Operation / 85
4.3.2 Integer-Domain Operation / 86
4.4 Modulo Arithmetic of the Reference and Variable Phases / 86
4.4.1 Variable-Phase Accumulator (PV Block) / 89
viii CONTENTS
4.5 Time-to-Digital Converter / 91
4.5.1 Frequency Reference Edge Estimation / 93
4.6 Fractional Error Estimator / 94
4.6.1 Fractional-Division Ratio Compensation / 96
4.6.2 TDC Resolution Effect on Estimated
Frequency Resolution / 97
4.6.3 Active Removal of Fractional Spurs
Through TDC (Optional) / 98
4.7 Frequency Reference Retiming by a DCO Clock / 100
4.7.1 Sense Amplifier–Based Flip-Flop / 102
4.7.2 General Idea of Clock Retiming / 103
4.7.3 Implementation / 104
4.7.4 Time-Deferred Calculation of the Variable
Phase (Optional) / 107
4.8 Loop Gain Factor / 109
4.8.1 Phase-Error Dynamic Range / 111
4.9 Phase-Domain ADPLL Architecture / 112
4.9.1 Close-in Spurs Due to Injection Pulling / 114
4.10 PLL Frequency Response / 115
4.10.1 Conversion Between the s- and
z-Domains / 119
4.11 Noise and Error Sources / 119
4.11.1 TDC Resolution Effect on Phase Noise / 120
4.11.2 Phase Noise Due to DCO SD Dithering / 122
4.12 Type II ADPLL / 127
4.12.1 PLL Frequency Response of a
Type II Loop / 130
4.13 Higher-Order ADPLL / 133
4.13.1 PLL Stability Analysis / 136
4.14 Nonlinear Differential Term of an ADPLL / 139
4.14.1 Quality Monitoring of an RF Clock / 140
4.15 DCO Gain Estimation Using a PLL / 141
4.16 Gear Shifting of PLL Gain / 142
4.16.1 Autonomous Gear-Shifting Mechanism / 143
4.16.2 Extended Gear-Shifting Scheme with
Zero-Phase Restart / 148
4.17 Edge Skipping Dithering Scheme (Optional) / 154
4.18 Summary / 155
CONTENTS ix
5 APPLICATION: ADPLL-BASED TRANSMITTER 156
5.1 Direct Frequency Modulation of a DCO / 157
5.1.1 Discrete-Time Frequency Modulation / 158
5.1.2 Hybrid of Predictive/Closed PLL Operation / 158
5.1.3 Effect of FREF/CKR Clock Misalignment / 163
5.2 Just-in-Time DCO Gain Calculation / 164
5.3 GFSK Pulse Shaping of Transmitter Data / 167
5.3.1 Interpolative Filter Operation / 172
5.4 Power Amplifier / 175
5.5 Digital Amplitude Modulation / 177
5.5.1 Discrete Pulse-Slimming Control / 180
5.5.2 Regulation of Transmitting Power / 181
5.5.3 Tuning Word Adjustment / 182
5.5.4 Fully Digital Amplitude Control / 183
5.6 Going Forward: Polar Transmitter / 183
5.6.1 Generic Modulator / 186
5.6.2 Polar TX Realization / 187
5.7 Summary / 188
6 BEHAVIORAL MODELING AND SIMULATION 189
6.1 Simulation Methodology / 190
6.2 Digital Blocks / 191
6.3 Support of Digital Stream Processing / 192
6.4 Random Number Generator / 192
6.5 Time-Domain Modeling of DCO Phase Noise / 192
6.5.1 Modeling Oscillator Jitter / 192
6.5.2 Modeling Oscillator Wander / 194
6.5.3 Modeling Oscillator Flicker (1/f ) Noise / 195
6.5.4 Clock Edge Divider Effects / 200
6.5.5 VHDL Model Realization of a DCO / 201
6.5.6 Support of Physical KDCO / 202
6.6 Modeling Metastability in Flip-Flops / 203
6.7 Simulation Results / 206
6.7.1 Time-Domain Simulations / 206
6.7.2 Frequency-Deviation Simulations / 207
6.7.3 Phase-Domain Simulations of Transmitters / 209
6.7.4 Synthesizer Phase-Noise Simulations / 209
6.8 Summary / 212
x CONTENTS
7 IMPLEMENTATION AND EXPERIMENTAL RESULTS 213
7.1 DSP and Its RF Interface to DRP / 213
7.2 Transmitter Core Implementation / 214
7.3 IC Chip / 216
7.4 Evaluation Board / 218
7.5 Measurement Equipment / 218
7.6 GFSK Transmitter Performance / 219
7.7 Synthesizer Performance / 221
7.8 Synthesizer Switching Transients / 224
7.9 DSP-Driven Modulation / 225
7.10 Performance Summary / 226
7.11 Summary / 227
APPENDIX A: SPURS DUE TO DCO SWITCHING 228
A.1 Spurs Due to DCO Modulation / 229
APPENDIX B: GAUSSIAN PULSE-SHAPING FILTER 232
APPENDIX C: VHDL SOURCE CODE 237
C.1 DCO Level 2 / 237
C.2 Period-Controlled Oscillator / 239
C.3 Tactical Flip-Flop / 241
C.4 TDC Pseudo-Thermometer Output Decoder / 243
REFERENCES 247
INDEX 253
CONTENTS xi
PREFACE
发表于 2007-3-15 12:36:49 | 显示全部楼层

好书啊

好书啊,多谢.
发表于 2007-3-18 13:38:54 | 显示全部楼层

只下一半就成乞丐了,仍感谢搂住的社会公益!

多谢!只下一半就成乞丐了,仍感谢搂住的社会公益!
发表于 2007-4-20 20:38:28 | 显示全部楼层
谢谢楼主了
太需要这书了
发表于 2007-5-8 12:05:37 | 显示全部楼层
thanks
发表于 2007-5-10 13:21:28 | 显示全部楼层
好书 好人那
发表于 2007-5-10 15:27:16 | 显示全部楼层
kankan!
发表于 2007-5-12 22:01:06 | 显示全部楼层
极品好书,作者是TI 做PLL方面的大牛. thanks
发表于 2007-5-29 09:38:55 | 显示全部楼层
thanks very much.
发表于 2007-5-30 14:23:47 | 显示全部楼层
Good Ebook ! Thanks for sharing!
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