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Lee, Kyuho Jason
Intelligent Systems Lab.
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A 1.4-m Omega-Sensitivity 94-dB Dynamic-Range Electrical Impedance Tomography SoC and 48-Channel Hub-SoC for 3-D Lung Ventilation Monitoring System

Author(s)
Kim, MinseoJang, JaeeunKim, HyunkiLee, JiheeLee, JaehyuckLee, JiwonLee, Kyoung-RogKim, KwantaeLee, YongsuLee, Kyuho JasonYoo, Hoi-Jun
Issued Date
2017-11
DOI
10.1109/JSSC.2017.2753234
URI
https://scholarworks.unist.ac.kr/handle/201301/24536
Fulltext
https://ieeexplore.ieee.org/document/8057579/
Citation
IEEE JOURNAL OF SOLID-STATE CIRCUITS, v.52, no.11, pp.2829 - 2842
Abstract
A wearable electrical impedance tomography (EIT) system is proposed for the portable real-time 3-D lung ventilation monitoring. It consists of two types of SoCs, active electrode (AE)-SoC and Hub-SoC, mounted on wearable belts. The 48-channel AE-SoCs are integrated on flexible printed circuit board belt, and Hub-SoC is integrated in the hub module which performs data gathering and wireless communication between an external imaging device. To get high accuracy under the variation of conductivity, the dual-mode current stimulator provides the optimal frequency for time difference-EIT and frequency difference-EIT with simultaneous 4 k-128 kHz impedance sensing. A wide dynamic range instruments amplifier is proposed to provide 94 dB of wide dynamic range impedance sensing. In addition, the 48-channel AE system with the dedicated communication and calibration is implemented to achieve 1.4-m Omega sensitivity of impedance difference in the in vivo environment. The AE-/Hub-SoCs occupy 3.2 and 1.3 mm2in 65-nm CMOS technology and consume 124 mu W and 1.1 mW with 1.2 V supply, respectively. As a result, EIT images are reconstructed with 90% of accuracy, and up to 10 frames/s real-time 3-D lung images are successfully displayed.
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
ISSN
0018-9200
Keyword (Author)
3-D-imagingactive electrode (AE)electrical impedance tomography (EIT)impedance spectroscopylung ventilation monitoringreal-time imagingwide dynamic range
Keyword
INJURYDESIGNRECONSTRUCTIONGREIT

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