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A Behind-The-Ear Patch-Type Mental Healthcare Integrated Interface with Adaptive Multimodal Offset Compensation and Parasitic Cancellation

Authors
Kim, HyunjoongCho, SanghyeonKim, Myeong WooPark, Chan SamLee, KwangmukSong, SolwoongKeum, Dae SikLee, SangmoonJeong, Hoon EuiJang, Dong PyoKim, Jae Joon
Issue Date
Apr-2026
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
Keywords
Electrodes; Recording; Electrocardiography; Electroencephalography; Monitoring; Impedance; Medical services; Biomedical measurement; Biomedical monitoring; Printed circuits; Behind-the-ear (BTE); multimodal biomedical system; readout integrated circuit (ROIC); electrode artifact; EEG; ECG; PPG; GSR; taVNS; stress measurement
Citation
IEEE TRANSACTIONS ON BIOMEDICAL CIRCUITS AND SYSTEMS, v.20, no.2, pp 313 - 327
Pages
15
Indexed
SCIE
SCOPUS
Journal Title
IEEE TRANSACTIONS ON BIOMEDICAL CIRCUITS AND SYSTEMS
Volume
20
Number
2
Start Page
313
End Page
327
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/213955
DOI
10.1109/TBCAS.2025.3642345
ISSN
1932-4545
1940-9990
Abstract
A behind-the-ear (BTE) integrated interface for mental healthcare applications is presented, featuring optimized BTE electrode configurations and wide multimodal biomedical IC with adaptive compensation capabilities. The proposed IC supports 8 bio-potential (ExG), 1 photoplethysmogram (PPG), 1 galvanic skin response (GSR), 1 bio-impedance (BioZ), and 2 stimulation channels. The ExG channel achieves 2.5GΩ input impedance, boosted by 308 times with offset compensated auxiliary path (OCAP) architecture, and its AC input impedancecharacteristic is boosted further by dual resolution external positive feedback loop (DR-EPFL) scheme. An area and energy-efficient GSR-embedded ECG recording scheme is presented. For comprehensive multimodal sensing features, dual-slope PPG channel with parasitic capacitance compensation, electrode-tissue impedance adaptive stimulator, and high dynamic range BioZ channel are integrated. The IC was fabricated in a 0.18-μm BCD process and integrated into a BTE patch-type device prototype. System-level feasibility was experimentally verified through in-vivo stress measurements with virtual reality (VR) environment, demonstrating effective mental health monitoring capabilities.
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Jang, Dong Pyo
GRADUATE SCHOOL OF BIOMEDICAL SCIENCE AND ENGINEERING (서울 생체의공학과)
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