An FSK Inductive-Coupling Transceiver Using 60mV 0.64fJ/bit 0.0016mm2 Load-Modulated Transmitter and LC-Oscillator-Based Receiver in 65nm CMOS for Energy-Budget-Unbalanced Application

An FSK Inductive-Coupling Transceiver Using 60mV 0.64fJ/bit 0.0016mm2 Load-Modulated Transmitter and LC-Oscillator-Based Receiver in 65nm CMOS for Energy-Budget-Unbalanced Application

This work presents an FSK inductive-coupling transceiver using a load-modulated transmitter and LC-oscillator-based receiver for energy-budget-unbalanced applications. By introducing the time-domain load modulated transmitter for FSK instead of the conventional current-driven scheme, energy reductio...

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Veröffentlicht in:IEICE Transactions on Electronics 2019/07/01, Vol.E102.C(7), pp.585-589
Hauptverfasser: HAYASHI, Kenya, ARATA, Shigeki, XU, Ge, MURAKAMI, Shunya, BUI, Cong Dang, KOBAYASHI, Atsuki, NIITSU, Kiichi
Format: Artikel
Sprache:eng
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Budgets
CMOS
Coupling
FSK
inductive-coupling
IoT
load modulation
low power
Power consumption
Transceivers
Transmitters
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container_end_page 589
container_issue 7
container_start_page 585
container_title IEICE Transactions on Electronics
container_volume E102.C
creator HAYASHI, Kenya
ARATA, Shigeki
XU, Ge
MURAKAMI, Shunya
BUI, Cong Dang
KOBAYASHI, Atsuki
NIITSU, Kiichi
description This work presents an FSK inductive-coupling transceiver using a load-modulated transmitter and LC-oscillator-based receiver for energy-budget-unbalanced applications. By introducing the time-domain load modulated transmitter for FSK instead of the conventional current-driven scheme, energy reduction of the transmitter side is possible. For verifying the proposed scheme, a test chip was fabricated in 65nm CMOS, and two chips were stacked for verifying the inter-chip communication. The measurement results show 0.64fJ/bit transmitter power consumption while its input voltage is 60mV, and the communication distance is 150µm. The footprint of the transmitter is 0.0016mm2.
doi_str_mv 10.1587/transele.2018CTS0002
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source J-STAGE
subjects Budgets
CMOS
Coupling
FSK
inductive-coupling
IoT
load modulation
low power
Power consumption
Transceivers
Transmitters
title An FSK Inductive-Coupling Transceiver Using 60mV 0.64fJ/bit 0.0016mm2 Load-Modulated Transmitter and LC-Oscillator-Based Receiver in 65nm CMOS for Energy-Budget-Unbalanced Application
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