基于32nm SOI CMOS技术的0.6 v、30 ghz超谐波耦合六相压控振荡器

Dongseok Shin, S. Raman, Kwang-Jin Koh
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引用次数: 6

摘要

本文提出了一种采用超谐波耦合技术的六相压控振荡器。三个压控振荡器通过其尾部节点的感应网络耦合以产生六相输出。该网络还可以作为每个VCO的尾噪声滤波器。因此,与典型的多相拓扑结构相比,所提出的六相压控振荡器具有更好的相位噪声性能。该VCO采用32nm SOI CMOS工艺实现,核心面积为0.6×0.5mm2。该VCO可在29.24 GHz至31.56 GHz范围内调谐,在0.6V电源下频率调谐范围为7.6%。在每个VCO消耗1.52 mW直流功率(总计4.56 mW)的情况下,当VCO输出频率为31.43 GHz时,在10 MHz偏移时测量到的相位噪声为-128 dBc/Hz,导致FOM为-191 dBc/Hz。
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A 0.6-V, 30-GHz six-phase VCO with superharmonic coupling in 32-nm SOI CMOS technology
This paper presents a six-phase VCO using a superharmonic coupling technique. Three VCOs are coupled by an inductive network in their tail nodes to generate six-phase outputs. This network also serves as a tail noise filter in each VCO. Therefore, the proposed six-phase VCO can achieve better phase noise performance than typical multiphase topologies. The proposed VCO is implemented in 32nm SOI CMOS process with core area of 0.6×0.5mm2. The VCO can be tuned from 29.24 GHz to 31.56 GHz, a frequency tuning range of 7.6% at 0.6V supply. With each VCO consuming 1.52 mW DC power (4.56 mW total), the measured phase noise is -128 dBc/Hz at 10 MHz offset when VCO output frequency is 31.43 GHz, resulting in -191 dBc/Hz of FOM.
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