Startup techniques for 95 mV step-up converter by capacitor pass-on scheme and ${\rm V} \rm TH-Tuned oscillator with fixed charge programming

Po-Hung Chen; Koichi Ishida; Katsuyuki Ikeuchi; Xin Zhang; Kentaro Honda; Yasuyuki Okuma; Yoshikatsu Ryu; Makoto Takamiya; Takayasu Sakurai

doi:10.1109/JSSC.2012.2185589

Startup techniques for 95 mV step-up converter by capacitor pass-on scheme and ${\rm V} _{\rm TH}-Tuned oscillator with fixed charge programming

Po-Hung Chen^*, Koichi Ishida, Katsuyuki Ikeuchi, Xin Zhang, Kentaro Honda, Yasuyuki Okuma, Yoshikatsu Ryu, Makoto Takamiya, Takayasu Sakurai

^*Corresponding author for this work

Institute of Electronics

Research output: Contribution to journal › Article › peer-review

124 Scopus citations

Abstract

This paper presents a 95 mV startup-voltage step-up DC-DC converter for energy harvesting applications. The capacitor pass-on scheme enables operation of the system from an input voltage of 95 mV without using additional off-chip components. To compensate for the die-to-die process variation, post-fabrication threshold voltage $({\rm V}-{\rm TH})$ trimming is applied to reduce the minimum operating voltage $({\rm V}-{\rm DDMIN})$ of the oscillator. Experimental results demonstrate the 34% ${\rm V} _{\rm DDMIN} reduction of the oscillator by post-fabrication ${\rm V} _{\rm TH} trimming. The proposed step-up converter achieves the lowest startup voltage in standard CMOS without using a mechanical switch or large transformer.

Original language	English
Article number	6156478
Pages (from-to)	1252-1260
Number of pages	9
Journal	IEEE Journal of Solid-State Circuits
Volume	47
Issue number	5
DOIs	https://doi.org/10.1109/JSSC.2012.2185589
State	Published - May 2012

Keywords

${\rm V} -tuned oscillator
Boost converter
DC-DC converter
capacitor pass-on
energy harvesting
fixed-charge programming
low voltage
startup

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10.1109/JSSC.2012.2185589

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Chen, P.-H., Ishida, K., Ikeuchi, K., Zhang, X., Honda, K., Okuma, Y., Ryu, Y., Takamiya, M., & Sakurai, T. (2012). Startup techniques for 95 mV step-up converter by capacitor pass-on scheme and ${\rm V} _{\rm TH}-Tuned oscillator with fixed charge programming. IEEE Journal of Solid-State Circuits, 47(5), 1252-1260. Article 6156478. https://doi.org/10.1109/JSSC.2012.2185589

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title = "Startup techniques for 95 mV step-up converter by capacitor pass-on scheme and ${\rm V} \rm TH-Tuned oscillator with fixed charge programming",

abstract = "This paper presents a 95 mV startup-voltage step-up DC-DC converter for energy harvesting applications. The capacitor pass-on scheme enables operation of the system from an input voltage of 95 mV without using additional off-chip components. To compensate for the die-to-die process variation, post-fabrication threshold voltage $({\rm V}-{\rm TH})$ trimming is applied to reduce the minimum operating voltage $({\rm V}-{\rm DDMIN})$ of the oscillator. Experimental results demonstrate the 34% ${\rm V} \rm DDMIN reduction of the oscillator by post-fabrication ${\rm V} \rm TH trimming. The proposed step-up converter achieves the lowest startup voltage in standard CMOS without using a mechanical switch or large transformer.",

keywords = "${\rm V} -tuned oscillator, Boost converter, DC-DC converter, capacitor pass-on, energy harvesting, fixed-charge programming, low voltage, startup",

author = "Po-Hung Chen and Koichi Ishida and Katsuyuki Ikeuchi and Xin Zhang and Kentaro Honda and Yasuyuki Okuma and Yoshikatsu Ryu and Makoto Takamiya and Takayasu Sakurai",

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AU - Chen, Po-Hung

AU - Ishida, Koichi

AU - Ikeuchi, Katsuyuki

AU - Zhang, Xin

AU - Honda, Kentaro

AU - Okuma, Yasuyuki

AU - Ryu, Yoshikatsu

AU - Takamiya, Makoto

AU - Sakurai, Takayasu

PY - 2012/5

Y1 - 2012/5

N2 - This paper presents a 95 mV startup-voltage step-up DC-DC converter for energy harvesting applications. The capacitor pass-on scheme enables operation of the system from an input voltage of 95 mV without using additional off-chip components. To compensate for the die-to-die process variation, post-fabrication threshold voltage $({\rm V}-{\rm TH})$ trimming is applied to reduce the minimum operating voltage $({\rm V}-{\rm DDMIN})$ of the oscillator. Experimental results demonstrate the 34% ${\rm V} \rm DDMIN reduction of the oscillator by post-fabrication ${\rm V} \rm TH trimming. The proposed step-up converter achieves the lowest startup voltage in standard CMOS without using a mechanical switch or large transformer.

AB - This paper presents a 95 mV startup-voltage step-up DC-DC converter for energy harvesting applications. The capacitor pass-on scheme enables operation of the system from an input voltage of 95 mV without using additional off-chip components. To compensate for the die-to-die process variation, post-fabrication threshold voltage $({\rm V}-{\rm TH})$ trimming is applied to reduce the minimum operating voltage $({\rm V}-{\rm DDMIN})$ of the oscillator. Experimental results demonstrate the 34% ${\rm V} \rm DDMIN reduction of the oscillator by post-fabrication ${\rm V} \rm TH trimming. The proposed step-up converter achieves the lowest startup voltage in standard CMOS without using a mechanical switch or large transformer.

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KW - Boost converter

KW - DC-DC converter

KW - capacitor pass-on

KW - energy harvesting

KW - fixed-charge programming

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Startup techniques for 95 mV step-up converter by capacitor pass-on scheme and ${\rm V} _{\rm TH}-Tuned oscillator with fixed charge programming

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