基于超谐波注入的g波段正交压控振荡器

Xuan Ding, Hai-xia Yu, Bo Yu, Zhiwei Xu, Q. Gu
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引用次数: 4

摘要

提出了一种利用超谐波注入技术实现的g波段正交压控振荡器(QVCO)。该技术确保了两个差分振荡器共模尾电流源节点的差分相位,然后强制产生正交输出。最大输出功率为-1.54 dBm,效率为3.2%,调谐范围为149.3 GHz ~ 152.4 GHz。测量的相位噪声(PN)在1mhz偏移时为-91.9 dBc/Hz。IQ输出由片上混频器进行相位和幅度精度测量。在工作频率范围内,测量到的I/Q相位失配小于1.5°,幅度失配小于0.33 dB。QVCO采用28纳米CMOS工艺实现,芯片面积为0.028 mm2。
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A Superharmonic Injection based G-band Quadrature VCO in CMOS
This paper presents a G-band quadrature voltage-controlled oscillator (QVCO) enabled by a superharmonic injection technique. This technique ensures differential phases at the common mode tail current source nodes of two differential oscillators, which are then enforced to generate quadrature outputs. It achieves a maximum output power of -1.54 dBm with the efficiency of 3.2% and the tuning range (TR) from 149.3 GHz to 152.4 GHz. The measured phase noise (PN) is -91.9 dBc/Hz at 1 MHz offset. The IQ outputs are down-converted by an on-chip mixer for phase and amplitude accuracy measurement. The measured I/Q phase mismatch is less than 1.5° and amplitude mismatch of less than 0.33 dB over the operating frequency range. The QVCO is implemented in a 28 nm CMOS process, occupying 0.028 mm2 chip area.
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