A 0.034mm2, 725fs RMS jitter, 1.8%/V frequency-pushing, 10.8–19.3GHz transformer-based fractional-N all-digital PLL in 10nm FinFET CMOS

2016 IEEE Symposium on VLSI Circuits (VLSI-Circuits) Pub Date : 2016-06-15 DOI:10.1109/VLSIC.2016.7573551
Chao-Chieh Li, Tsung-Hsien Tsai, Min-Shueh Yuan, Chia-Chun Liao, Chih-Hsien Chang, Tien-Chien Huang, Hsien-Yuan Liao, Chung-Ting Lu, Hung-Yi Kuo, K. Hsieh, Mark Chen, A. Ximenes, R. Staszewski
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引用次数: 3

Abstract

A tiny LC-tank-based ADPLL in 10nm FinFET CMOS achieves an area comparable to that of inverter-based ring-oscillator PLLs. A DCO occupying 0.016mm2 uses a controllable multi-turn magnetic coupling transformer to extend its tuning range to 10.8-19.3GHz (56.5%). A diversity of fine-tune capacitor banks limits the max/min step-size ratio to 2.3×. A new metastability-resolution scheme allows to use the frequency reference (FREF) clock directly instead of a retimed FREF (CKR) of conventional ADPLLs. A low-complexity estimator calculates inverse of the TDC. The fractional phase jitter (725fs) reaches sub-ps for the first time among PLLs of <;0.1mm2. Frequency pushing is 1.8%/V, which is at least 50× better than in traditional ring-type PLLs.
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一个0.034mm2, 725fs RMS抖动,1.8%/V频率推进,10.8-19.3GHz基于变压器的10nm FinFET CMOS分数n全数字锁相环
在10nm FinFET CMOS中,基于lc槽的微型ADPLL实现了与基于逆变器的环形振荡器pll相当的面积。占地0.016mm2的DCO采用可控多匝磁耦合变压器,将其调谐范围扩展到10.8-19.3GHz(56.5%)。多种微调电容器组将最大/最小步长比限制在2.3×。一种新的亚稳分辨率方案允许直接使用频率参考(FREF)时钟而不是传统adpll的重定时FREF (CKR)。一个低复杂度的估计器计算TDC的逆。在< 0.1mm2的锁相环中,分数阶相位抖动(725fs)首次达到亚ps级。频率推进率为1.8%/V,比传统环型锁相环提高至少50倍。
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2016 IEEE Symposium on VLSI Circuits (VLSI-Circuits)
2016 IEEE Symposium on VLSI Circuits (VLSI-Circuits)
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