The Fractional-N All Digital Frequency Locked Loop with Robustness for PVT Variation and Its Application for the Microcontroller Unit

The Fractional-N All Digital Frequency Locked Loop with Robustness for PVT Variation and Its Application for the Microcontroller Unit

This paper describes the Fractional-N All Digital Frequency Locked Loop (ADFLL) with Robustness for PVT variation and its application for the microcontroller unit. The conventional FLL is difficult to achieve the required specification by using the fine CMOS process. Especially, the conventional FLL...

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Veröffentlicht in:IEICE Transactions on Information and Systems 2021/08/01, Vol.E104.D(8), pp.1146-1153
Hauptverfasser: MIYAUCHI, Ryoichi, YOSHIDA, Akio, NAKANO, Shuya, TAMURA, Hiroki, TANNO, Koichi, FUKUCHI, Yutaka, KAWAMURA, Yukio, KODAMA, Yuki, SEKIYA, Yuichi
Format: Artikel
Sprache:eng
Schlagworte:
all digital frequency locked loop
Chip formation
CMOS
Coefficient of variation
Digital filters
fractional-N
Frequency locking
microcontroller unit
Microcontrollers
PVT variation
Robustness
Vibration
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Zusammenfassung:This paper describes the Fractional-N All Digital Frequency Locked Loop (ADFLL) with Robustness for PVT variation and its application for the microcontroller unit. The conventional FLL is difficult to achieve the required specification by using the fine CMOS process. Especially, the conventional FLL has some problems such as unexpected operation and long lock time that are caused by PVT variation. To overcome these problems, we propose a new ADFLL which uses dynamic selecting digital filter coefficients. The proposed ADFLL was evaluatied through the HSPICE simulation and fabricating chips using a 0.13 µm CMOS process. From these results, we observed the proposed ADFLL has robustness for PVT variation by using dynamic selecting digital filter coefficient, and the lock time is improved up to 57%, clock jitter is 0.85 nsec.
ISSN:0916-8532
1745-1361
DOI:10.1587/transinf.2020LOP0008