Phynitty P-Nano Wireless Electrophysiology Station
As an ultra-lightweight wireless system, the P-Nano allows researchers to seamlessly monitor key physiological indicators. It delivers high-precision neural, cardiac, and muscular data alongside behavioral insights without compromising the natural movement of preclinical models.
Core Advantages
Wireless, Lightweight, Synchronous Behavioral and Physiological Recording
The Phynitty P-Nano wireless system enables high-precision electrophysiological recording of brain, cardiac, and muscular activity in preclinical models (especially mice and rats), while simultaneously capturing motion and posture data, ensuring reliable, high-quality acquisition in both controlled and real-world environments.
Wireless & Autonomy
Supports real-time Bluetooth telemetry alongside onboard SD card recording, enabling flexible data acquisition in both live and standalone modes
Multimodal Integration
Integrates electrophysiology, temperature, and motion sensing in one device, enabling synchronized analysis of physiological and behavioral data.
Ultra-Lightweight
With its ultra-compact 1.2 g design, the device minimizes animal burden, preserving natural behavior and improving experimental validity.
Long-Term Continuous Recording
Designed for extended studies, the system records continuously from days to months with optimized power consumption and smart scheduling.
Dual-Mode Recording
Seamlessly switch between real-time telemetry and standalone biologger modes to adapt to different experimental environments.
Fully Configurable
Easily configure channels, sampling rates, filters, and sensors to match specific experimental protocols and research needs.
Software Ecosystem
Phynitty Hub: Intuitive & Efficient Cloud Management
Seamlessly configure all devices and retrieve data within 30 seconds using Phynitty Hub, no complex software installation required.
- Cross-Platform Management
- Fast Configuration
- Live Waveform Visualization
- Smart Scheduler
- Status Overview
- Seamless Synchronization
Get Excited to move
Scientific Applications
Sleep & Circadian
Long-term EEG/EMG recording for precise identification of sleep cycles and circadian rhythm changes.
Anxiety & Stress
Combine motion tracking with physiological signals for multidimensional behavioral analysis
Epilepsy & Neurodegeneration
Capture subtle neural dynamics to advance disease mechanism research
Memory & Learning
Track neural activity during learning tasks to study memory formation, consolidation, and recall processes.
Pain Research
Combine physiological signals with behavioral responses to investigate pain perception and modulation mechanisms.
Freely Moving Behavior
Record physiological and motion data in freely moving animals while preserving natural behavior and experimental validity.
Core Advantages
Technical Specifications
The Phynitty P-Nano wireless system enables high-precision electrophysiological recording of brain, cardiac, and muscular activity in preclinical models (especially mice and rats), while simultaneously capturing motion and posture data, ensuring reliable, high-quality acquisition in both controlled and real-world environments.
9
Recording channels
+ 9-axis IMU
Temperature sensor
8–1024 Hz
Sampling rate
2 days to months
Recording duration
256 GB
Onboard SD storage
5 × 12 × 3 mm
Size
Our happy customers
Technical Specifications
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Sed auctor turpis eu arcu sagittis, id sagittis justo suscipit.
Codey Joyner
UrbanAcres, LLC
“My move was way less stressful than expected! Movely packed everything, stored it for a week, and moved it all to my new home just as promised!”
Eren Hill
H&H Legal Partners
“Movely provided a very professional service when we moved offices last month. They were easy to work with and moved everything on time.”
Emanuel Sadler
SavvyMarket
Best experience ever! I desperately needed a mover to help with a last minute relocation, and Movely was so helpful in making it a seamless process!”
You ask, we answer
Ready to move? Get a quote now!
© 2026 Movely. All Rights Reserved.