Predicting phase noise in crystal oscillators

机译：预测晶体振荡器中的相位噪声

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An enhanced phase noise model allows to predict the phase noise in crystal oscillators. It is based on an improvement of the mathematical analysis proposed by G. Sauvage. In this model, power spectral densities of phase fluctuations are computed in different points of the oscillator loop. They are calculated from their correlation functions. The resonator caused noise as well as the amplifier caused noise are taken into account and distinguished. In order to validate this model, the behavior of about ten of 10 MHz quartz crystal oscillators is observed and analyzed. These oscillators have been chosen in a facility production. Resonators have been selected according to the value of their resonant frequency and their motional resistance. We attempt to measure separately the amplifier and resonator caused noises by means of a passive method. The phase noise of the overall oscillator working in closed loop is provided by the usual active method. Theoretical and experimental results are compared and discussed.

机译：增强的相位噪声模型可以预测晶体振荡器中的相位噪声。它基于对G. Sauvage提出的数学分析的改进。在该模型中，在振荡器环路的不同点计算相位波动的功率谱密度。它们是从它们的相关函数中计算出来的。考虑并区分了谐振器引起的噪声和放大器引起的噪声。为了验证该模型，观察并分析了大约10个10 MHz石英晶体振荡器的行为。这些振荡器已在工厂生产中选择。已根据谐振频率和运动阻力的值选择了谐振器。我们尝试通过无源方法分别测量放大器和谐振器引起的噪声。闭环工作的整个振荡器的相位噪声是通过通常的有源方法提供的。对理论和实验结果进行了比较和讨论。

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《Frequency Control Symposium and PDA Exhibition Jointly with the 17th European Frequency and Time Forum, 2003. Proceedings of the 2003 IEEE International》|2003年|p.499-502|共4页
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Galliou S.; Sthal F.; Gufflet N.; Mourey M.;
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中图分类无线电电子学、电信技术;
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quartz; phase noise; amplifiers; crystal oscillators; mathematical analysis; phase noise; quartz crystal oscillators; mathematical analysis; power spectral density; phase fluctuations; correlation functions; resonant frequency; resonator noise; amplifier noise; 10 MHz; SiO/sub 2/;

机译：石英;相位噪声;放大器;晶体振荡器;数学分析;相位噪声;石英晶体振荡器;数学分析;功率谱密度;相位波动;相关函数;谐振频率;谐振器噪声;放大器噪声; 10 MHz; SiO / sub 2 /;

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专利

1. 一种用于射频调谐器的低相位噪声低功耗晶体振荡器 [J] . 唐路, 王志功, 曾贤文, 东南大学学报（英文版） . 2012,第001期
2. Predicting phase noise in crystal oscillators [J] . Sthal F., Galliou S., Gufflet N., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2005,第1期

机译：预测晶体振荡器中的相位噪声
3. Prediction, simulation, and verification of the phase noise in 80-MHz low-phase-noise crystal oscillators [J] . Huang Xianhe, Chen Pingping, Fu Wei, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2015,第9期

机译：80 MHz低相位噪声晶体振荡器中相位噪声的预测，仿真和验证
4. New phase-noise model for crystal oscillators: application to the Clapp oscillator [J] . Galliou S., Sthal F., Mourey M. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2003,第11期

机译：晶体振荡器的新相位噪声模型：在Clapp振荡器中的应用
5. PREDICTING PHASE NOISE IN CRYSTAL OSCILLATORS [C] . Serge GALLIOU, Fabrice STHAL, Nicolas GUFFLET, IEEE International Frequency Control Symposium PDA Exhibition . 2003

机译：预测晶体振荡器中的相位噪声
6. A low phase noise oscillator: Rotary traveling wave oscillator. [D] . Chen, Yulin. 2012

机译：低相位噪声振荡器：旋转行波振荡器。
7. Uncertainty Evaluation on a 10.52 GHz (5 dBm) Optoelectronic Oscillator Phase Noise Performance [O] . Patrice Salzenstein, Ekaterina Pavlyuchenko 2021

机译：10.52 GHz（5 dBm）光电振荡器相位噪声性能的不确定性评估
8. The analysis and design of a 50MHz Colpitts low phase noise crystal oscillator [O] . Yan Wang, Ying Cui, Shiyi Xu 2018

机译：50MHz Colpitts低相噪声晶体振荡器的分析与设计
9. Measurement of Precision Oscillator Phase Noise Using the Two- Oscillator Coherent Down-Conversion Technique [R] . Pagnanelli, C. J., Cashin, W. F. 1991

机译：用双振荡器相干下变换技术测量精密振荡器相位噪声

Predicting phase noise in crystal oscillators

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