
Inertial Measurement Units
UmiX Series

The most compact high performance IMU in the world
UmiX Series is a cutting-edge Inertial Measurement Unit (IMU) engineered for the most demanding applications. UmiX Series is a cutting-edge Inertial Measurement Unit (IMU) engineered for the most demanding applications. Featuring state-of-the-art north-seeking Fiber-Optic Gyroscope (FOG) technology, it delivers unparalleled stability in GNSS-denied environments, making it the perfect solution for high-end stabilization systems.
A new-built technology
This innovative device integrates three precision-engineered Fiber-Optic Gyroscopes and three iXal-S Vibrating Beam Accelerometers, all designed in-house for optimal performance. With its solid-state architecture and plug-and-play capabilities, the UmiX Series simplifies integration by eliminating the need for calibration and streamlining attitude computation.
Tactical & short-term navigation-grade IMUs
With an in-run bias of 0.03°/h and a bias residual of 0.2°/h, UmiX Series fit in both tactical and short-term navigation classes of IMUs. In addition, its vibrating quartz accelerometers have a dynamic range of ~100 g max, with navigation grade bias and scale factor, mostly unrivaled on such class of IMUs. This extends furthermore the potential uses for UmiX Series.
The ideal system for gyrostabilization
The UmiX Series features two distinct versions designed for civilian and military use, both providing high-performance Inertial Measurement Units (IMUs). This simplified dual-product range offers versatility across a wide range of applications, particularly excelling in advanced stabilization and precision targeting, making it ideal for sensor payloads in both airborne and ground environments.
Smart solution for civilian and military applications
Fiber-Optic Gyroscopes
Umix 40-5DU | Umix 40-5MG | |
---|---|---|
Dynamic | ± 490°/s max | ± 2000 °/s max
|
Angular random walk | 8 m°/√h | 8 m°/√h
|
Bandwitdh | 5 kHz | 5 kHz
|
Bias instability | 10 m°/h 1σ | 10 m°/h 1σ
|
Bias thermal residual | 50 m°/h 1σ | 50 m°/h 1σ
|
Scale factor thermal residual | 40 ppm 1σ
| 40 ppm 1σ
|