Research

Integrated circuits and systems for neural interfaces, wireless power, neuromodulation, and bioelectronic systems

BCAS Lab develops low-power integrated circuits and systems for next-generation biomedical applications. Our research spans from circuit-level design to chip implementation, PCB/system integration, measurement, and experimental validation.

We focus on biomedical circuits and systems that connect IC design, wireless power/data links, neural interfaces, and real-world bioelectronic applications.


Neural Recording ICs

Neural Recording ICs

Low-noise and high-density analog/mixed-signal ICs for neural signal acquisition, recording, and brain–computer interface hardware.

Keywords: Neural recording · AFE · ADC · BCI hardware

Wireless Power and Data Transfer

Wireless Power & Data Transfer ICs

Miniaturized wireless power and synchronized data links for wearable, implantable, and distributed biomedical systems.

Keywords: WPT · WPDT · Inductive link · Full-duplex data

Neuromodulation ICs

Neuromodulation ICs

Integrated stimulation ICs and compact systems for precise, efficient, and minimally invasive neuromodulation.

Keywords: TIS IC · Current stimulator · Neural stimulation · Implantable stimulator

PVT Sensor ICs

PVT Sensor ICs

On-chip process-voltage-temperature sensing circuits for real-time system monitoring, calibration, and robust low-power IC operation.

Keywords: PVT sensor · Temperature monitor · Voltage monitor · Calibration

Wearable and Implantable Bioelectronic Systems

Wearable & Implantable Bioelectronic Systems

System-level integration of ICs, PCBs, coils, sensors, and bioelectronic platforms for real-world biomedical applications.

Keywords: Wearables · Implants · Bioelectronics · System integration