A Power-Efficient Pulse-VCO for Chip-Scale Atomic Clock

Haosheng ZHANG; Aravind THARAYIL NARAYANAN; Hans HERDIAN; Bangan LIU; Rui WU; Atsushi SHIRANE; Kenichi OKADA

doi:10.1587/transele.2018CDP0010

Special Section on Solid-State Circuit Design — Architecture, Circuit, Device and Design Methodology

A Power-Efficient Pulse-VCO for Chip-Scale Atomic Clock

Haosheng ZHANG, Aravind THARAYIL NARAYANAN, Hans HERDIAN, Bangan LIU, Rui WU, Atsushi SHIRANE, Kenichi OKADA

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Keywords: VCO, chip-scale atomic clock (CSAC), power efficiency, phase noise, tank loading, tail filter

JOURNAL RESTRICTED ACCESS

2019 Volume E102.C Issue 4 Pages 276-286

DOI https://doi.org/10.1587/transele.2018CDP0010

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Abstract

This paper presents a high power efficient pulse VCO with tail-filter for the chip-scale atomic clock (CSAC) application. The stringent power and clock stability specifications of next-generation CSAC demand a VCO with ultra-low power consumption and low phase noise. The proposed VCO architecture aims for the high power efficiency, while further reducing the phase noise using tail filtering technique. The VCO has been implemented in a standard 45nm SOI technology for validation. At an oscillation frequency of 5.0GHz, the proposed VCO achieves a phase noise of -120dBc/Hz at 1MHz offset, while consuming 1.35mW. This translates into an FoM of -191dBc/Hz.

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