From Neural Signals to Meaningful Insights

Powered by our proprietary Neuro-Bio ASIC. Low noise. Multi-channel synchronous stimulation recording. Born for biomedical neurotechnology devices.

Our Core Technology

Neuro-Bio ASIC
Designed for Precision.

By bridging neuroscience, circuit design, and algorithm development, we deliver a complete system-on-chip solution that transforms how neural data is acquired and processed.

Proprietary Source

We don't just assemble; we create. Our Neuro-Bio ASIC is designed in-house from the transistor level up, ensuring total control over signal integrity and power efficiency.

Low Noise AFE

Our Analog Front-End (AFE) allows the capture of micro-volt neural oscillations even in noisy, onions even in noisy, non-clinical environments.

Multi-Channel Sync

Synchronized sampling across 8 to 32+ channels ensures precise temporal correlation of brain events, crucial for effective brain-computer interfacing.

Closed-Loop Stimulation

Capable of generating arbitrary waveforms for VNS, CES, and tES stimulation, triggered in real-time by detected neural biomarkers.

AI-Ready Architecture

On-chip feature extraction reduces data bandwidth, enabling edge-AI models to classify states like focus, fatigue, or stress with minimal latency.

Wireless Integration

Native support for low-latency Bluetooth transmission, optimized for battery-powered wearable form factors without compromising data fidelity.

Technology Architecture

Intelligent Edge AI Computing

From high-precision signals to wireless intelligence. Our patented architecture integrates acquisition, processing, and transmission.

Electrodes

Analog Input

Circuit

Signal Acquisition
Bio-Sense Module

BCI Chip Core

Digitization
MCU

Memory

Edge Computing Engine

Artifact Removal

Feature Extraction

BT Module

Wireless Output
Validations

Lab-Grade Signal Quality

Our chips maintain high signal-to-noise ratio (SNR) even in unshielded environments. The Power Spectral Density (PSD) analysis confirms the preservation of critical Alpha and Beta bands essential for cognitive monitoring.

Power Spectral Density (PSD)

BPS Chip
Competitor
Alpha Peak
0 Hz10 Hz20 Hz30 Hz40 Hz
Efficiency

Extended Battery Life

Engineered for endurance. Our Low-power design ensures that monitoring can continue > 24 hours on a single battery, enabling true longitudinal studies and user compliance.

< 5mWTotal System Power
24+ HoursContinuous Recording
Power Consumption-60% vs Standard Market Chips
Standard
Real-World Impact

Empowering Next-Gen Applications

Consumer HealthWellness

Wearable Sleep & Emotion Sensing

Integrated into headbands and patches to monitor sleep stages and emotional states in real-time.

MedTechTherapeutics

Closed-Loop VNS / tES Therapy

Triggering vagus nerve or transcranial stimulation precisely when pathological patterns are detected.

Assistive TechControl

Brain-Computer Interface (BCI)

Enabling direct control of external devices through high-fidelity motor cortex signal acquisition.

ResearchAcademia

Clinical Neuroscience Research

Providing researchers with wireless, artifact-free data for animal behavior and human cognition studies.

Bring next-generation
neural sensing to your product.

Partner with BioPro to leverage our ASIC technology and accelerate your development cycle.