research-article

A 65nm CMOS Process Li-ion Battery Charging Cascode SIDO Boost Converter with 89% Maximum Efficiency for RF Wireless Power Transfer Receiver

Authors:

Yasuaki Isshiki,

Dai Suzuki,

Ryo Ishida,

Kousuke MiyajiAuthors Info & Claims

ASPDAC '21: Proceedings of the 26th Asia and South Pacific Design Automation Conference

Pages 91 - 92

https://doi.org/10.1145/3394885.3431647

Published: 29 January 2021 Publication History

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Abstract

This paper proposes a 65nm CMOS process cascode single-inductor-dual-output (SIDO) boost converter for RF wireless power transfer (WPT) receiver. In order to withstand 4.2V Li-ion battery output, cascode 2.5V I/O PFETs are used at the power stage while 2.5V cascode NFETs are used for 1V output to supply low voltage control circuit. By using NFETs, 1V output with 5V tolerance can be achieved. Measurement results show conversion efficiency of 89% at PIN=7.9mW and Vbat=3.4V.

References

[1]

K. Murata et al., IEEE EuMC, pp. 170--173, 2018.

Google Scholar

[2]

Y. Isshiki et al., IEICE Trans. Electron, 2019CTP0003, 2020.

Google Scholar

[3]

Y. Toyama et al., IEEE A-SSCC, pp. 9--12, 2016.

Google Scholar

[4]

S. Y. Jung et al., IEEE Symp. VLSI Circ., pp. 204--205, 2017.

Google Scholar

[5]

P. H. Hsieh et al., IEEE TCAS-I, vol. 62, pp. 1528--1537, 2015.

Google Scholar

[6]

C. W. Liu et al., IEEE JSSC, vol. 53, pp. 2741--2750, 2018.

Google Scholar

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ASPDAC '21: Proceedings of the 26th Asia and South Pacific Design Automation Conference

January 2021

930 pages

ISBN:9781450379991

DOI:10.1145/3394885

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Association for Computing Machinery

New York, NY, United States

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Published: 29 January 2021

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SIGDA

ASPDAC '21: 26th Asia and South Pacific Design Automation Conference

January 18 - 21, 2021

Tokyo, Japan

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ASPDAC '21 Paper Acceptance Rate 111 of 368 submissions, 30%;

Overall Acceptance Rate 466 of 1,454 submissions, 32%

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ASPDAC '25

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30th Asia and South Pacific Design Automation Conference

January 20 - 23, 2025

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A 65nm CMOS low-power, low-voltage bandgapreference with using self-biased composite cascode opamp

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