Real-Time 3D Electrical Impedance Tomography
Capture high-fidelity volumetric conductivity maps from any geometry. Built for researchers and industrial engineers demanding zero-latency reconstruction.
What is 3D EIT?
3D Electrical Impedance Tomography (EIT) is a non-invasive imaging technique that reconstructs the internal conductivity distribution of a volume based on surface electrical measurements.
Volumetric vs. Planar
Unlike 2D EIT which only shows a cross-section, 3D EIT captures the entire depth of the sample, revealing complex flow patterns and structural variations.
Radiation-Free Imaging
Operates using low-frequency current injection, making it safe for continuous monitoring in medical and industrial environments without specialized shielding.
How Our System Works
A high-performance pipeline from raw potential to 3D insight.
Excitation
Adaptive current injection (up to 45KHz).
Sensing
Simultaneous 32-channel voltage capture.
FPGA DSP
Hardware-accelerated signal filtering.
Inverse Solve
Real-time non-linear reconstruction.
Visual Output
Zero-latency 3D volumetric mapping.
Key Capabilities
The EITX Core is the most advanced 3D acquisition engine for research and industry.
45KHz Capture
Deep-transient monitoring with synchronization across 128 channels.
Medical Safety
ISO 13485 compliant current limits and galvanic isolation.
API Ecosystem
Native Python/C++ SDKs for seamless custom software integration.
Modular Arrays
Easy-swap electrode interfaces for different tank/body geometries.
Raw Data Export
Standard CSV, JSON, and MATLAB binary output formats supported.
EIDORS Ready
Fully optimized drive patterns for the world's leading reconstruction library.
Dual-Recon
Simultaneous processing of 2D slices and 3D volumetric data.
Cloud Sync
Stream real-time meta-data to your private dashboard for remote labs.
Applications
Where precision meets volumetric complexity.
Biomedical
Long-term monitoring of lung ventilation and tissue impedance changes without ionizing radiation.
Process Control
Monitor industrial mixing vessels, multiphase flows, and pipeline sedimentation in real-time.
NDT Inspection
Identify subsurface cracks, corrosion, and material voids in conductive structures and composites.
R&D Prototyping
A baseline system for developing new drive patterns and reconstruction algorithms at scale.
Live Data Dash
Our EIT-PRO suite provides instant visual feedback for conductivity variations. No post-processing wait times—reconstruct while you acquire.
System Architecture
The EITX Core is optimized for 16-bit precision and modular scalability.
Technical Specifications
Signal Flow Diagram
Software & Integration
The EITX SDK is built by developers, for developers.
Zero-Friction SDK
Directly wrap our hardware into your research stack. We provide native bindings for Python, MATLAB, and C++, with a fully documented WebSocket API for real-time web-based visualization.
import eitx_core as eit
# Init 32-ch hardware
system = eit.initialize(channels=32)
# Start real-time drive
system.start_pattern("adjacent")
# Collect and reconstruct
while True:
frame = system.read_frame()
volume = eit.reconstruct_3d(frame)
volume.plot_live()Validation & Case Studies
Proven reliability across controlled phantoms and high-frequency process cycles.
Phantom Tank Performance
Standard saline bath tests with nylon inclusions (1cm diameter). The EITX system achieved 98.4% spatial repeatability across 1000 continuous frames.
Accelerated Medical Cycle
Dynamic lung-ventilation proxy using dual-piston volumetric phantoms. Captured transient recruitment patterns at 45KHz without signal jitter.
REDEFINE YOUR INVISIBILITY LIMIT.
Talk to an application engineer today and discover how 3D EIT can solve your most complex imaging challenges.