自参考，修整和补偿射频CMOS谐波振荡器作为单片频率发生器

2008 IEEE International Frequency Control Symposium Pub Date : 2008-05-19 DOI:10.1109/FREQ.2008.4623029

M. McCorquodale

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引用次数: 19

摘要

自参考，修整和温度补偿的射频(RF) CMOS LC或谐波振荡器(CHOs)被提出为高精度和低抖动的单片频率发生器。在最近努力用硅MEMS技术取代压电频率参考的背景下讨论了CHOs。相比之下，CHOs是可以用标准微电子工艺技术制造的自参考固态振荡器。介绍了CHO的体系结构及其最新实现。报告了CHOs的频率和时域性能，并与现有的压电振荡器和新兴的mems参考合成器进行了比较。结果表明，在90°c范围内，CHOs的频率误差低至±26 ppm，并且在相同频率下，其周期抖动是mems参考合成器的1/6。

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Self-referenced, trimmed and compensated RF CMOS harmonic oscillators as monolithic frequency generators

Self-referenced, trimmed and temperature-compensated radio frequency (RF) CMOS LC, or harmonic oscillators (CHOs) are presented as high-accuracy and low-jitter monolithic frequency generators. CHOs are discussed within the context of recent efforts toward replacement of piezoelectric frequency references with silicon MEMS technology. In contrast, CHOs are self-referenced solid-state oscillators which can be fabricated in a standard microelectronic process technology. The CHO architecture and recent implementations are presented. Frequency- and time-domain performance of CHOs is reported and compared to the incumbent piezoelectric oscillators and emerging MEMS-referenced synthesizers. It is shown that CHOs achieve frequency error as low as plusmn26 ppm over 90degC and 1/6th the period jitter of MEMS-referenced synthesizers at the same frequency.

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2008 IEEE International Frequency Control Symposium

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