A Fully-Synthesizable Fractional-N Injection-Locked PLL for Digital Clocking with Triangle/Sawtooth Spread-Spectrum Modulation Capability in 5-nm CMOS

A Fully-Synthesizable Fractional-N Injection-Locked PLL for Digital Clocking with Triangle/Sawtooth Spread-Spectrum Modulation Capability in 5-nm CMOS

A fully synthesizable injection-locked phase-locked loop (IL-PLL) for digital clocking is proposed in this letter. The phase-locked loop (PLL) is implemented in a 5-nm CMOS process, with only digital standard cells are used. With proposed triple-path operation and digital offset control for digital-...

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Veröffentlicht in:IEEE solid-state circuits letters 2020, Vol.3, p.34-37
Hauptverfasser: Liu, Bangan, Li, Zheng, Fu, Xi, Shirane, Atsushi, Kurosu, Hitoshi, Nakane, Yoshinori, Masaki, Shunichiro, Okada, Kenichi, Zhang, Yuncheng, Qiu, Junjun, Huang, Hongye, Sun, Zheng, Xu, Dingxin, Zhang, Haosheng, Wang, Yun, Pang, Jian
Format: Artikel
Sprache:eng
Schlagworte:
CMOS
Converters
Frequency measurement
Frequency modulation
Fully synthesizable
injection locking
Jitter
Phase locked loops
Phase locked systems
Phase noise
phase-locked loop (PLL)
Power consumption
Power demand
ring oscillator (RO)
spread-spectrum clocking (SSC)
Synthesis
Vibration
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Zusammenfassung:A fully synthesizable injection-locked phase-locked loop (IL-PLL) for digital clocking is proposed in this letter. The phase-locked loop (PLL) is implemented in a 5-nm CMOS process, with only digital standard cells are used. With proposed triple-path operation and digital offset control for digital-to-time converter (DTC), low-jitter fractional-N frequency synthesis, and highly-linear spread-spectrum clocking are realized with low-power consumption. The PLL core area is 0.0036 mm 2 . With 100-MHz reference frequency, better than −234.7 dB figure-of-merit (FOM) is achieved in the fractional-N mode, with −44.3 dBc worst-case fractional spur. The proposed PLL has the smallest chip area, highest FOM, and lowest fractional spur among ring oscillator (RO)-based fractional-N PLLs in sub-20-nm processes.
ISSN:2573-9603
2573-9603
DOI:10.1109/LSSC.2020.2967744