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17.2 A 66fs<sub>rms</sub>Jitter 12.8-to-15.2GHz Fractional-N Bang-Bang PLL with Digital Frequency-Error Recovery for Fast Locking

Alessio Santiccioli, Mario Mercandelli, Luca Bertulessi, Angelo Parisi, Dmytro Cherniak, Andrea L. Lacaita, Carlo Samori, Salvatore Levantino

202025 citationsDOI

Abstract

The substantial increase in mobile data-rates, enabled by the 5G standard, calls for significantly lower integrated jitter of the local oscillator with respect to previous generations, with requirements below 90fs rms for millimeter-wave frequency bands [1]. To satisfy such stringent requirements, while at the same time guaranteeing fast lock, analog PLLs have been preferred over digital implementations in recent literature [1], [2]. Digital bang-bang PLLs, on the other hand, consume less power and occupy smaller footprint due to the absence of analog loop filters. Digital bang-bang PLLs, however, generally suffer from poor locking performance, which is due to the bang-bang phase detector (BBPD) overloading in presence of large frequency errors, and from increased jitter due to quantization. To improve locking, [3] relies on additional frequency-locking loops (FLLs) to bypass the BBPD when overloaded, at the cost of additional design complexity and power. To improve on quantization noise, [4] proposes a digital PLL based on an enhanced-resolution time-to-digital converter (TDC). However, locking performances were not addressed, and its operation was limited to the integer-N mode. Achieving low-jitter in a fractional-N PLL poses an extra challenge, because of the random jitter introduced by the digital-to-time converter (DTC) and the spectrum folding of the DTC quantization noise arising from its non-linearity and memory effects [1].

Topics & Concepts

Phase-locked loopJitterQuantization (signal processing)Electronic engineeringComputer sciencePhase noisePLL multibitTime-to-digital converterEngineeringAlgorithmClock signalAdvancements in PLL and VCO TechnologiesRadio Frequency Integrated Circuit DesignPhotonic and Optical Devices
17.2 A 66fs<sub>rms</sub>Jitter 12.8-to-15.2GHz Fractional-N Bang-Bang PLL with Digital Frequency-Error Recovery for Fast Locking | Litcius