High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices

Hsiang Ming Yen; Chia Ling Wei; Chi Shi Chen; Terng Yin Hsu

doi:10.1109/SOCC46988.2019.1570562801

High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices

Hsiang Ming Yen, Chia Ling Wei, Chi Shi Chen, Terng Yin Hsu

電機工程學系

研究成果: Conference contribution

摘要

A step-down multi-mode switching DC-DC converter for battery-powered portable IoT products is proposed, and it was implemented by using a 0.35-μm CMOS mixed-signal 2P4M polycide 5V/3.3V process. The load capacitor at converter output can be removed from the dynamic circuit which helps during transients. The output stage is designed with both the static and dynamic controls to suppress the possible large overshoot/undershoot voltage during load change. Moreover, a novel adaptive switching frequency (ASF) technique is also proposed in this work to optimize the converter performance at different input voltages. There are three operational modes in the proposed regulator, and, thus, a wide input voltage range, 2.1-5 V, is achieved. The output voltage is set to 1.8 V, and the maximal load current is 100mA. The measured conversion efficiency may go up to 87.6%.

原文	English
主出版物標題	Proceedings - 32nd IEEE International System on Chip Conference, SOCC 2019
編輯	Danella Zhao, Arindam Basu, Magdy Bayoumi, Gwee Bah Hwee, Ge Tong, Ramalingam Sridhar
發行者	IEEE Computer Society
頁面	449-454
頁數	6
ISBN（電子）	9781728134826
DOIs	https://doi.org/10.1109/SOCC46988.2019.1570562801
出版狀態	Published - 2019 9月
事件	32nd IEEE International System on Chip Conference, SOCC 2019 - Singapore, Singapore 持續時間: 2019 9月 3 → 2019 9月 6

出版系列

名字	International System on Chip Conference
卷	2019-September
ISSN（列印）	2164-1676
ISSN（電子）	2164-1706

Conference

Conference	32nd IEEE International System on Chip Conference, SOCC 2019
國家/地區	Singapore
城市	Singapore
期間	19-09-03 → 19-09-06

All Science Journal Classification (ASJC) codes

硬體和架構
控制與系統工程
電氣與電子工程

存取文件

10.1109/SOCC46988.2019.1570562801

其它文件與鏈接

引用此

Yen, H. M., Wei, C. L., Chen, C. S., & Hsu, T. Y. (2019). High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices. 於 D. Zhao, A. Basu, M. Bayoumi, G. B. Hwee, G. Tong, & R. Sridhar (編輯), Proceedings - 32nd IEEE International System on Chip Conference, SOCC 2019 (頁 449-454). [9088004] (International System on Chip Conference; 卷 2019-September). IEEE Computer Society. https://doi.org/10.1109/SOCC46988.2019.1570562801

Yen, Hsiang Ming ; Wei, Chia Ling ; Chen, Chi Shi 等. / High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices. Proceedings - 32nd IEEE International System on Chip Conference, SOCC 2019. 編輯 / Danella Zhao ; Arindam Basu ; Magdy Bayoumi ; Gwee Bah Hwee ; Ge Tong ; Ramalingam Sridhar. IEEE Computer Society, 2019. 頁 449-454 (International System on Chip Conference).

@inproceedings{97941826d868422eafc96f47a1ba3d24,

title = "High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices",

abstract = "A step-down multi-mode switching DC-DC converter for battery-powered portable IoT products is proposed, and it was implemented by using a 0.35-μm CMOS mixed-signal 2P4M polycide 5V/3.3V process. The load capacitor at converter output can be removed from the dynamic circuit which helps during transients. The output stage is designed with both the static and dynamic controls to suppress the possible large overshoot/undershoot voltage during load change. Moreover, a novel adaptive switching frequency (ASF) technique is also proposed in this work to optimize the converter performance at different input voltages. There are three operational modes in the proposed regulator, and, thus, a wide input voltage range, 2.1-5 V, is achieved. The output voltage is set to 1.8 V, and the maximal load current is 100mA. The measured conversion efficiency may go up to 87.6%.",

author = "Yen, {Hsiang Ming} and Wei, {Chia Ling} and Chen, {Chi Shi} and Hsu, {Terng Yin}",

note = "Publisher Copyright: {\textcopyright} 2019 IEEE.; 32nd IEEE International System on Chip Conference, SOCC 2019 ; Conference date: 03-09-2019 Through 06-09-2019",

year = "2019",

month = sep,

doi = "10.1109/SOCC46988.2019.1570562801",

language = "English",

series = "International System on Chip Conference",

publisher = "IEEE Computer Society",

pages = "449--454",

editor = "Danella Zhao and Arindam Basu and Magdy Bayoumi and Hwee, {Gwee Bah} and Ge Tong and Ramalingam Sridhar",

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Yen, HM, Wei, CL, Chen, CS & Hsu, TY 2019, High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices. 於 D Zhao, A Basu, M Bayoumi, GB Hwee, G Tong & R Sridhar (編輯), Proceedings - 32nd IEEE International System on Chip Conference, SOCC 2019., 9088004, International System on Chip Conference, 卷 2019-September, IEEE Computer Society, 頁 449-454, 32nd IEEE International System on Chip Conference, SOCC 2019, Singapore, Singapore, 19-09-03. https://doi.org/10.1109/SOCC46988.2019.1570562801

High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices. / Yen, Hsiang Ming; Wei, Chia Ling; Chen, Chi Shi 等.
Proceedings - 32nd IEEE International System on Chip Conference, SOCC 2019. 編輯 / Danella Zhao; Arindam Basu; Magdy Bayoumi; Gwee Bah Hwee; Ge Tong; Ramalingam Sridhar. IEEE Computer Society, 2019. p. 449-454 9088004 (International System on Chip Conference; 卷 2019-September).

研究成果: Conference contribution

TY - GEN

T1 - High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices

AU - Yen, Hsiang Ming

AU - Wei, Chia Ling

AU - Chen, Chi Shi

AU - Hsu, Terng Yin

PY - 2019/9

Y1 - 2019/9

N2 - A step-down multi-mode switching DC-DC converter for battery-powered portable IoT products is proposed, and it was implemented by using a 0.35-μm CMOS mixed-signal 2P4M polycide 5V/3.3V process. The load capacitor at converter output can be removed from the dynamic circuit which helps during transients. The output stage is designed with both the static and dynamic controls to suppress the possible large overshoot/undershoot voltage during load change. Moreover, a novel adaptive switching frequency (ASF) technique is also proposed in this work to optimize the converter performance at different input voltages. There are three operational modes in the proposed regulator, and, thus, a wide input voltage range, 2.1-5 V, is achieved. The output voltage is set to 1.8 V, and the maximal load current is 100mA. The measured conversion efficiency may go up to 87.6%.

AB - A step-down multi-mode switching DC-DC converter for battery-powered portable IoT products is proposed, and it was implemented by using a 0.35-μm CMOS mixed-signal 2P4M polycide 5V/3.3V process. The load capacitor at converter output can be removed from the dynamic circuit which helps during transients. The output stage is designed with both the static and dynamic controls to suppress the possible large overshoot/undershoot voltage during load change. Moreover, a novel adaptive switching frequency (ASF) technique is also proposed in this work to optimize the converter performance at different input voltages. There are three operational modes in the proposed regulator, and, thus, a wide input voltage range, 2.1-5 V, is achieved. The output voltage is set to 1.8 V, and the maximal load current is 100mA. The measured conversion efficiency may go up to 87.6%.

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M3 - Conference contribution

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T3 - International System on Chip Conference

SP - 449

EP - 454

BT - Proceedings - 32nd IEEE International System on Chip Conference, SOCC 2019

A2 - Zhao, Danella

A2 - Basu, Arindam

A2 - Bayoumi, Magdy

A2 - Hwee, Gwee Bah

A2 - Tong, Ge

A2 - Sridhar, Ramalingam

PB - IEEE Computer Society

T2 - 32nd IEEE International System on Chip Conference, SOCC 2019

Y2 - 3 September 2019 through 6 September 2019

ER -

Yen HM, Wei CL, Chen CS, Hsu TY. High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices. 於 Zhao D, Basu A, Bayoumi M, Hwee GB, Tong G, Sridhar R, 編輯, Proceedings - 32nd IEEE International System on Chip Conference, SOCC 2019. IEEE Computer Society. 2019. p. 449-454. 9088004. (International System on Chip Conference). doi: 10.1109/SOCC46988.2019.1570562801

High-Efficiency Step-Down Multi-Mode Switching DC-DC Converter for IoT Devices

摘要

出版系列

Conference

All Science Journal Classification (ASJC) codes

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