A 1.33 mW, 1.6psrms-integrated-jitter, 1.8-2.7 GHz ring-oscillator-based fractional-n injection-locked DPLL for internet-of-things applications

Conference paper (2018)

Authors

Jiang Gong Student, Holst Centre
Yuming He Holst Centre
Ao Ba Holst Centre
Yao Hong Liu Holst Centre
Johan Dijkhuis Holst Centre
Stefano Traferro Holst Centre
Christian Bachmann Holst Centre
Kathleen Philips Holst Centre
M. Babaie Electronics - EEMCS
Research Group
Electronics (EEMCS) (TU Delft)
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Published Date

2018

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Electronics

Abstract

This paper presents a 1.8-2.7 GHz low-power ring-oscillator-based fractional-N injection-locked digital PLL (IL-DPLL) in 40-nm CMOS for Internet-of-Things clock generation. A two-path injection technique is proposed to improve the in-band phase noise and the integrated jitter of the implemented PLL by 6 dB and 1.8×, respectively. Furthermore, a digital foreground calibration is introduced to effectively reduce reference spurs in a short calibration time of 2 μs. In the worst-case channel, the proposed DPLL using a 64 MHz reference input shows a 1.6 ps integrated jitter, -43.6 dBc reference spur, -45.8 dBc fractional spur and 1 kHz frequency resolution while consuming 1.33 mW power.

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