Physical processes of phase noise in differential LC oscillators

J. Rael, A. Abidi
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引用次数: 516

Abstract

There is an unprecedented interest among circuit designers today to obtain insight into the mechanisms of phase noise in LC oscillators. For only with this insight is it possible to optimize oscillator circuits using low-quality integrated resonators to comply with the exacting phase noise specifications of modern wireless systems. In this paper we concentrate on an understanding of the popular differential LC oscillator. We introduce simple models to capture the nonlinear processes that convert voltage or current thermal noise in resistors or transistors into phase noise in the oscillator. The analysis does not require hypothetical elements, such as limiters or amplitude control loops, to fully explain phase noise. A simple expression at the end accurately specifies thermally induced phase noise, and lends substance to Leeson's original hypothesis. Next, the upconversion of flicker noise into phase noise is traced to mechanisms first identified in the 1930's, but apparently since forgotten. Unlike thermally induced phase noise, which appears as phase modulation sidebands, flicker noise is shown to upconvert by bias-dependent frequency modulation. The results are validated against SpectreRF simulations and measurements on two differential CMOS oscillators tuned by resonators with very different Q's.
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差分LC振荡器相位噪声的物理过程
电路设计人员对深入了解LC振荡器中相位噪声的机制有着前所未有的兴趣。因为只有有了这种见解,才有可能使用低质量集成谐振器优化振荡器电路,以符合现代无线系统的严格相位噪声规范。在本文中,我们集中在了解流行的差分LC振荡器。我们引入简单的模型来捕捉将电阻或晶体管中的电压或电流热噪声转换为振荡器中的相位噪声的非线性过程。分析不需要假设的元素,如限制器或幅度控制回路,以充分解释相位噪声。最后一个简单的表达式准确地描述了热诱导的相位噪声,并为李森最初的假设提供了依据。接下来,闪烁噪声上转换为相位噪声可以追溯到20世纪30年代首次确定的机制,但显然已经被遗忘了。与以相位调制边带形式出现的热诱导相位噪声不同,闪烁噪声通过偏置相关的频率调制显示为上转换。结果通过SpectreRF模拟和两个差分CMOS振荡器的测量结果进行了验证,这些振荡器由不同Q值的谐振器调谐。
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