Untethered neural interfaces designed for free-moving research.
Extreme lightness. Medical-grade precision. Infinite possibilities.
A fully bidirectional interface that does more than just listen. Monitor 16 channels of neural activity while simultaneously delivering precise micro-stimulation patterns. Weighing under 10g, it enables complex behavioral experiments without mechanical burden.
Massively parallel recording in a wireless form factor. Streaming 256 channels at 30kHz broadband, the RD256 captures single-unit spikes with wired-quality signal integrity. Designed for high-throughput mapping in free-moving subjects.
Seamlessly integrates with film-based electrodes for electrocorticography. Ideal for capturing macro-scale local field potentials (LFP) directly from the cortical surface.
Designed to support high-density rigid probes like Utah Arrays or Silicon probes. Perfect for deep tissue penetration and high-resolution single-unit recording.
Connects effortlessly with ultra-thin polymer threads and flexible microwires, ensuring stable long-term recording with minimal tissue response.
The mission control for your data. This comprehensive software suite handles real-time waveform visualization, advanced filtering, and automated online spike detection. Includes robust tools for data archiving and high-fidelity session playback.
Unlock the potential of secondary development. The NeXPan SDK provides a standardized API to bridge biological signals with modern AI frameworks. Ideal for researchers building custom BCI pipelines or real-time closed-loop algorithms.