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Vol. 32, No. 8(2), S&M2292

ISSN (print) 0914-4935
ISSN (online) 2435-0869
Sensors and Materials
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Sensors and Materials, Volume 32, Number 8(1) (2020)
Copyright(C) MYU K.K.
pp. 2631-2639
S&M2289 Research Paper of Special Issue (Dr. Niitsu)
https://doi.org/10.18494/SAM.2020.2558
Published: August 10, 2020

Design and Theoretical Analysis of Bit Error Rate (BER)-modulated Inductive-coupling Transceiver Using Dynamic Intermediate Interference Control Technique for Low-power Communication [PDF]

Ge Xu, Kenya Hayashi, Shigeki Arata, Shunya Murakami, Dang Cong Bui, Atsuki Kobayashi, and Kiichi Niitsu

(Received August 20, 2019; Accepted July 17, 2020)

Keywords: low power, low cost, CMOS, IoT, inductive coupling, communication, transceiver

In this paper, we present a bit error rate (BER)-modulated inductive-coupling transceiver using a dynamic intermediate interference control technique for the first time. By controlling interference from the intermediate writer, the BER can be modulated. A simulation with Simulation Program with Integrated Circuit Emphasis (SPICE) is performed for a proposal of 65 nm CMOS. The simulation results show that the proposed approach is effective for the power and cost reduction of the writer. The layout area without an I/O pad is approximately 0.015 mm2 and the communication distance is 20 μm. The power consumption of the transmitter is reduced to 0.3 μW.

Corresponding author: Kiichi Niitsu


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Cite this article
Ge Xu, Kenya Hayashi, Shigeki Arata, Shunya Murakami, Dang Cong Bui, Atsuki Kobayashi, and Kiichi Niitsu, Design and Theoretical Analysis of Bit Error Rate (BER)-modulated Inductive-coupling Transceiver Using Dynamic Intermediate Interference Control Technique for Low-power Communication, Sens. Mater., Vol. 32, No. 8, 2020, p. 2631-2639.



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