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Ring-oscillator (RO)-based phase-locked loops (PLLs) are very attractive for system-on-chip applications for their compactness and tuning range, but suffer from high jitter and supply noise sensitivity. This paper presents a… Click to show full abstract
Ring-oscillator (RO)-based phase-locked loops (PLLs) are very attractive for system-on-chip applications for their compactness and tuning range, but suffer from high jitter and supply noise sensitivity. This paper presents a sub-sampling phase detector (SSPD)-based feedforward noise cancellation (FFNC) technique to improve these drawbacks of the RO PLL. The FFNC scheme utilizes the already available SSPD output to perform cancellation with high sensitivity while utilizing low power and area overhead. The 2- to 2.8-GHz RO PLL proof-of-principle prototype occupies 0.022 mm2 active area in 65 nm CMOS; it achieves a 633 fs rms jitter at 2.36 GHz with 5.86 mW power consumption and an figure of merit (FOMjitter) of −236.3 dB. The cancellation reduces the jitter by
Journal Title: IEEE Journal of Solid-State Circuits
Year Published: 2018
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