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This work presents the lowest power consumption sub-mm2 supply-modulated OOK transmitter for self-powering a continuous glucose monitoring (CGM) contact lens. By combining the transmitter with a glucose fuel cell that functions as both the power source and a sensing transducer, a self-powered CGM contact lens was developed. The 385×385μm2 test chip implemented in 65-nm standard CMOS technology operates at 270pW with a supply voltage of 0.165V. Self-powered operation of the transmitter using a 2×2mm2 solid-state glucose fuel cell was thus demonstrated.
Kenya HAYASHI
Graduate School of Engineering Nagoya University
Shigeki ARATA
Graduate School of Engineering Nagoya University
Ge XU
Graduate School of Engineering Nagoya University
Shunya MURAKAMI
Graduate School of Engineering Nagoya University
Cong Dang BUI
Graduate School of Engineering Nagoya University
Atsuki KOBAYASHI
Graduate School of Engineering Nagoya University
Kiichi NIITSU
Graduate School of Engineering Nagoya University,JST
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Kenya HAYASHI, Shigeki ARATA, Ge XU, Shunya MURAKAMI, Cong Dang BUI, Atsuki KOBAYASHI, Kiichi NIITSU, "A 385×385μm2 0.165V 0.27nW Fully-Integrated Supply-Modulated OOK Transmitter in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens" in IEICE TRANSACTIONS on Electronics,
vol. E102-C, no. 7, pp. 590-594, July 2019, doi: 10.1587/transele.2018CTS0005.
Abstract: This work presents the lowest power consumption sub-mm2 supply-modulated OOK transmitter for self-powering a continuous glucose monitoring (CGM) contact lens. By combining the transmitter with a glucose fuel cell that functions as both the power source and a sensing transducer, a self-powered CGM contact lens was developed. The 385×385μm2 test chip implemented in 65-nm standard CMOS technology operates at 270pW with a supply voltage of 0.165V. Self-powered operation of the transmitter using a 2×2mm2 solid-state glucose fuel cell was thus demonstrated.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/transele.2018CTS0005/_p
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@ARTICLE{e102-c_7_590,
author={Kenya HAYASHI, Shigeki ARATA, Ge XU, Shunya MURAKAMI, Cong Dang BUI, Atsuki KOBAYASHI, Kiichi NIITSU, },
journal={IEICE TRANSACTIONS on Electronics},
title={A 385×385μm2 0.165V 0.27nW Fully-Integrated Supply-Modulated OOK Transmitter in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens},
year={2019},
volume={E102-C},
number={7},
pages={590-594},
abstract={This work presents the lowest power consumption sub-mm2 supply-modulated OOK transmitter for self-powering a continuous glucose monitoring (CGM) contact lens. By combining the transmitter with a glucose fuel cell that functions as both the power source and a sensing transducer, a self-powered CGM contact lens was developed. The 385×385μm2 test chip implemented in 65-nm standard CMOS technology operates at 270pW with a supply voltage of 0.165V. Self-powered operation of the transmitter using a 2×2mm2 solid-state glucose fuel cell was thus demonstrated.},
keywords={},
doi={10.1587/transele.2018CTS0005},
ISSN={1745-1353},
month={July},}
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TY - JOUR
TI - A 385×385μm2 0.165V 0.27nW Fully-Integrated Supply-Modulated OOK Transmitter in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens
T2 - IEICE TRANSACTIONS on Electronics
SP - 590
EP - 594
AU - Kenya HAYASHI
AU - Shigeki ARATA
AU - Ge XU
AU - Shunya MURAKAMI
AU - Cong Dang BUI
AU - Atsuki KOBAYASHI
AU - Kiichi NIITSU
PY - 2019
DO - 10.1587/transele.2018CTS0005
JO - IEICE TRANSACTIONS on Electronics
SN - 1745-1353
VL - E102-C
IS - 7
JA - IEICE TRANSACTIONS on Electronics
Y1 - July 2019
AB - This work presents the lowest power consumption sub-mm2 supply-modulated OOK transmitter for self-powering a continuous glucose monitoring (CGM) contact lens. By combining the transmitter with a glucose fuel cell that functions as both the power source and a sensing transducer, a self-powered CGM contact lens was developed. The 385×385μm2 test chip implemented in 65-nm standard CMOS technology operates at 270pW with a supply voltage of 0.165V. Self-powered operation of the transmitter using a 2×2mm2 solid-state glucose fuel cell was thus demonstrated.
ER -