Revolutionizing Predictive Maintenance

The world’s First Zero-Mass, Strain-Based Vibration Sensor

From Ear-Level Monitoring to Nerve-Level Insight

Interface-mounted for direct access to the machine’s structural energy

Reads strain, not vibration, exposing faults at their physical origin

Detects micro-slip, stiffness changes, and early bearing damage long before surface sensors react

Designed for the Impossible

Zero proof mass → no resonance peaks, no mass movement, no false alarms

Metal-substrate MEMS → far higher durability than silicon devices

Interface-level installation → senses stiffness, preload, torque, load transfer

Custom geometries for bolts, flanges, curved surfaces, housings, and tight spaces

Distributed Sensors. One Intelligent AI Core.

Real-time FFTs with automatic harmonic tracking & drift detection

Neural autoencoder trained on each machine’s structural signature

Trend evolution of peaks, noise floor, stiffness loss, and frequency shifts

Accurate Remaining Useful Life (RUL) forecasting from clean strain signals