A Study of Phase-Adjusting Architectures for Low-Phase-Noise Quadrature Voltage-Controlled Oscillators

M. Ugajin, Yuya Kakei, N. Itoh
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Abstract

SUMMARY Quadrature voltage-controlled oscillators (VCOs) with current-weight-average and voltage-weight-average phase-adjusting architectures are studied. The phase adjusting equalizes the oscillation frequency to the LC-resonant frequency. The merits of the equalization are explained by using Leeson’s phase noise equation and the impulse sensitivity function (ISF). Quadrature VCOs with the phase-adjusting architectures are fabricated using 180-nm TSMC CMOS and show low-phase-noise performances compared to a conventional di ff erential VCO. The ISF analysis and small-signal analysis also show that the drawbacks of the current-weight-average phase-adjusting and voltage-weight-average phase-adjusting architectures are current-source noise e ff ect and large additional capacitance, respectively. A voltage-average-adjusting circuit with a source follower at its input alleviates the capacitance increase.
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低相位噪声正交压控振荡器的相位调整结构研究
研究了具有电流-平均和电压-平均相位调节结构的正交压控振荡器(VCOs)。相位调整使振荡频率均衡到lc谐振频率。利用Leeson相位噪声方程和脉冲灵敏度函数(ISF)解释了均衡化的优点。与传统的差分压控振荡器相比,具有相位调节结构的正交压控振荡器具有低相位噪声的性能。ISF分析和小信号分析还表明,电流-平均权重调相和电压-平均权重调相结构的缺点分别是电流源噪声效应和大附加电容。在输入端采用源从动器的电压平均调节电路可减轻电容的增加。
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