This work presents a digital-to-time converter (DTC)-based fractional- N phase-locked loop (PLL) achieving low jitter and low spurs. Thanks to the proposed resistor-based inverse-constant-slope (R-ICS) DTC, the DTC random jitter is drastically reduced while retaining the excellent linearity performance of the conventional ICS-DTC architecture. Moreover, a tailored DTC range reduction technique is introduced to further improve DTC random noise. The PLL prototype has been fabricated in 28-nm CMOS and consumes 16.7 mW, with an active area of 0.21 mm 2 . It generates an output frequency in the 8.75–10.25-GHz range from a 125-MHz input reference frequency. At 9.25-GHz near-integer channels, it achieves a 67-fs rms jitter, a -108.5-dBc/Hz in-band phase noise (at 10-kHz offset), and fractional spurs below -63 dBc.
A Low-Noise Fractional-$N$ Digital PLL Using a Resistor-Based Inverse-Constant-Slope DTC
Salvi, Pietro;Dartizio, Simone M.;Rossoni, Michele;Tesolin, Francesco;Castoro, Giacomo;Lacaita, Andrea L.;Levantino, Salvatore
2024-01-01
Abstract
This work presents a digital-to-time converter (DTC)-based fractional- N phase-locked loop (PLL) achieving low jitter and low spurs. Thanks to the proposed resistor-based inverse-constant-slope (R-ICS) DTC, the DTC random jitter is drastically reduced while retaining the excellent linearity performance of the conventional ICS-DTC architecture. Moreover, a tailored DTC range reduction technique is introduced to further improve DTC random noise. The PLL prototype has been fabricated in 28-nm CMOS and consumes 16.7 mW, with an active area of 0.21 mm 2 . It generates an output frequency in the 8.75–10.25-GHz range from a 125-MHz input reference frequency. At 9.25-GHz near-integer channels, it achieves a 67-fs rms jitter, a -108.5-dBc/Hz in-band phase noise (at 10-kHz offset), and fractional spurs below -63 dBc.File | Dimensione | Formato | |
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A_Low-Noise_Fractional-_N_Digital_PLL_Using_a_Resistor-Based_Inverse-Constant-Slope_DTC.pdf
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