一种采用130纳米CMOS电容—电感退化技术的270 Hz精细频率调谐c类振荡器

2021 16th International Conference on Design & Technology of Integrated Systems in Nanoscale Era (DTIS) Pub Date : 2021-06-28 DOI:10.1109/DTIS53253.2021.9505061

Sehmi Saad, F. Haddad, Aymen Ben Hammadi

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引用次数: 2

摘要

提出了一种具有鲁棒启动功能的高分辨率c类压控振荡器(VCO)。所提出的振荡器在不添加任何额外抖动方法的情况下实现了270 Hz的最小频率量化步长。通过电容-电感退化耦合(CIDC)技术，在不明显影响本征振荡器相位噪声(PN)的情况下，降低了电容值，获得了非常精细的调谐。该技术还提供负跨导，以补偿LC槽中的损耗，从而产生高振荡幅度和振荡器芯中相对较低的功耗。该设计采用130纳米CMOS技术，可实现45%的调谐范围。它的相位噪声为-107 dBc/Hz @ 1-MHz偏移，而它从1.2 V电源中吸取5.75 mA，导致FoM为165 dBc/Hz。

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A 270 Hz, Fine Frequency Tuning Class-C Oscillator Using Capacitive--Inductive Degeneration Technique in 130 -nm CMOS

This paper presents a high-resolution Class-C type voltage-controlled oscillator (VCO) with a robust start-up. The proposed oscillator achieves a minimum frequency quantification step of 270 Hz without adding any additional dithering approach. The very fine tuning is obtained through a capacitive-inductive degeneration coupling (CIDC) technique which reduces the capacitance value without appreciably affecting the intrinsic oscillator phase noise (PN). This technique also provides a negative transconductance to compensate for losses in the LC tank, resulting in high oscillation amplitude and relatively low power consumption in the oscillator core. The proposed design, implemented in 130 nm CMOS technology, achieves 45% tuning range. It exhibits a phase noise of –107 dBc/Hz @ 1-MHz offset, while it draws 5.75 mA from a supply of 1.2 V, resulting in a FoM of 165 dBc/Hz.

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2021 16th International Conference on Design & Technology of Integrated Systems in Nanoscale Era (DTIS)

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