A complete neural research platform for recording, stimulation, and analysis
eLab brings together high-resolution extracellular recording, programmable stimulation, and advanced signal analysis in one integrated environment for in-vivo and in-vitro research.
Acquisition fidelity
24-bit
High-resolution neural recording architecture
Signal coverage
Multi-modal
LFP, spikes, EEG, EMG, and evoked responses
Research focus
LTP, LTD, epilepsy, neural coding
Experimental modes
In-vivo and in-vitro workflows
Control
Integrated stimulation and analysis
Platform introduction
Built as a unified electrophysiology environment
eLab combines data acquisition hardware, low-noise extracellular amplifiers, programmable stimulation, and advanced analysis software into one coordinated platform for animal neuroscience research.
From single-neuron activity to large-scale network behavior, the system supports comprehensive neural investigation across memory, synaptic plasticity, epilepsy modeling, and neural coding studies.
DAQ system
Integrated acquisition hardware designed for signal fidelity and experimental stability.
Low-noise amplifiers
Differential architecture for stable microvolt-level neural signal detection.
Programmable stimulation
Precise control for induction, modulation, and protocol-driven experiments.
Real-time signal visualization
See neural activity with clarity across multiple signal types
eLab supports simultaneous acquisition and visualization of Local Field Potentials, single-unit spikes, multi-unit activity, EEG, ECoG, EMG, ECG, EOG, and evoked potentials with high signal-to-noise performance and full electrical isolation.
LFP & field activity
Capture local network dynamics and extracellular field responses with precision.
Spike & MUA
Track single-unit and multi-unit activity for firing pattern and coding studies.
EEG / EMG / evoked
Extend experiments to EEG, ECoG, EMG, ECG, EOG, VEP, and NCV workflows.
Signal integrity highlights
- High CMRR for noise rejection
- Optical isolation up to 2500V
- Stable microvolt-level signal detection
LFP analysis
Slope, amplitude, latency, population spike detection, and AUC measurement.
Spike analysis
Detection, sorting, PSTH, ISI histograms, firing rate, and burst analysis.
Frequency mapping
FFT decomposition and theta, gamma, and delta band exploration.
Neurofeedback platform
Advanced analysis for real-time and offline neuroscience workflows
Powered by the eProbe analysis environment, the platform supports continuous electrophysiological processing for plasticity studies, oscillation mapping, spike classification, and experiment review.
Researchers can compare pre- and post-stimulation states, quantify LTP and LTD changes, and monitor neural dynamics with tools designed for both immediate feedback and deeper post-session analysis.
Protocol system
Programmable stimulation for controlled experimental design
The integrated stimulation module enables precise neural control with constant-current output, microamp-level precision, microsecond timing resolution, programmable pulse patterns, and reversible polarity.
It is designed for induction protocols, epilepsy models, sensory pathway stimulation, and broader neuromodulation research where timing and repeatability are critical.
LTP / LTD induction
Support synaptic plasticity experiments with repeatable stimulation patterns.
Kindling models
Enable epilepsy and hyperexcitability studies with controlled protocol delivery.
DBS & sensory research
Adapt pulse design for deep brain stimulation and pathway activation studies.
Current control
µA precision
Timing control
µs resolution
Pulse design
Fully programmable
Polarity
Reversible control
Sensory evoked responses
Support VEP, NCV, and related evoked potential workflows in structured experiments.
Behavior-linked studies
Connect ERP-style paradigms with behavioral neuroscience and systems-level research.
Real-time review
Observe responses during acquisition and refine experimental timing with confidence.
ERP integration
Extend the platform to evoked response and systems neuroscience studies
eLab supports evoked potential workflows alongside extracellular recording, making it suitable for sensory response experiments, pathway analysis, and broader electrophysiology protocols that require synchronized acquisition and stimulation.
This creates a flexible foundation for research teams working across oscillatory activity, response timing, and stimulus-driven neural dynamics.
ePulse
Stimulation control
eProbe
Acquisition and analysis
eSpike
Single-unit recording
eSorter
Spike clustering
eTrace
Field potential experiments
AI-ready workflows
Structured outputs for advanced research pipelines
AI & research ecosystem
A broader ecosystem for modern neuroscience laboratories
eLab operates as part of a connected research environment that links stimulation, acquisition, spike sorting, and field potential experimentation into one workflow.
With dedicated tools for clustering, waveform analysis, and structured experiment control, the platform supports reproducible studies and future-facing AI and computational neuroscience applications.
Data export compatibility
Designed to fit into established lab analysis workflows
Recorded data can be transferred into broader signal analysis environments, helping teams integrate eLab into existing neuroscience pipelines without sacrificing acquisition quality or experimental flexibility.
Combined with USB-based communication, multi-channel support, and isolated amplifier design, the platform is built for dependable lab deployment and downstream compatibility.
24-bit ADC
High-resolution conversion for detailed neural signal capture.
Up to 50 kHz
Sampling performance suited to demanding extracellular studies.
2–8 channels
Model-dependent channel configurations for flexible deployment.
Export-friendly architecture
Move recorded datasets into external analysis environments when needed.
USB communication
Reliable high-speed connectivity for acquisition and transfer workflows.
Lab-ready deployment
Portable, integrated, and suitable for acute, chronic, in-vivo, and in-vitro setups.
Bring a complete electrophysiology ecosystem into your lab
Request a live demo or technical consultation to see how eLab can support your recording, stimulation, and analysis workflow across modern neuroscience research programs.