We are the sole provider of advanced closed-loop MEMS accelerometers and gyroscopes in the market. Our sensors serve as a compact, digital option to tactical-grade quartz accelerometers and Fiber Optic Gyroscopes (FOG) for Inertial Measurement Units (IMU) and Inertial Navigation Systems (INS) utilized in Unmanned Aerial Vehicles (UAV) and Unmanned Ground Vehicles (UGV) operating in dynamic and challenging conditions.
Explore Our High-Performance MEMS Inertial Sensors for Challenging applications
Avionics & Advanced Air Mobility
high-performance MEMS inertial sensors tailored for VTOL and aerospace applications.
Mining, Oil & gas
Compact, digital, and highly stable accelerometers and gyroscopes for energy and mining sectors.
Marine & Subsea
MEMS inertial sensors designed for high stability and repeatability in ship navigation and guidance.
Land & Railway
MEMS sensors for train localization, acceleration tracking, and infrastructure monitoring.
MEMS Gyroscopes
GYPRO4300 MEMS Gyroscopes
High stability ±300 °/s angular rate sensor for railways, drones, and autonomous vehicles
Our compact digital gyro is encased in a hermetically sealed SMD package and features a 24-bit SPI interface for seamless integration, reducing the overall bill of materials compared to analog sensors.
The design incorporates fully hard-coded electronics without embedded software, along with built-in temperature compensation and self-test capabilities.
The GYPRO4300 is factory calibrated to deliver high-accuracy digital output across a wide temperature range and is not classified under dual-use export control.
This sensor is perfect for various unmanned systems applications, including:
- GNSS-aided positioning and navigation for trains and land vehicles
- Antenna and gimbal stabilization
- IMU, INS, and AHRS for drones and autonomous vehicles
| GYPRO 4300 | |
| Dimensions (mm) | 12 x 12 x 5.5 |
| weight | 2g |
| Input Range | ±300 °/s |
| Bandwidth | >200 Hz |
| Data Rate | 1800 Hz |
| Latency | <1 ms |
| Bias Repeatability | 10°/h |
| Bias Instability (Allan variance) | 0.4°/h |
| Angular Random Walk | 0.07°/√hr |
MEMS Accelerometers
AXO315 MEMS Accelerometer
14 g MEMS accelerometer with exceptional bias stability & repeatability for avionics and Advanced Air Mobility
AXO315 is a high-performance closed-loop MEMS accelerometer designed as a low-SWaP alternative to quartz accelerometers. It boasts excellent linearity and vibration rectification, delivering top-tier bias and scale factor repeatability even under high vibrations across a temperature range up to 105 °C.
Housed in a hermetically-sealed SMD ceramic package, it features a 24-bit SPI interface for straightforward integration and reduced PCB design costs.
The AXO315 is built with fully hard-coded electronics and no embedded software, along with built-in temperature compensation and self-test features.
it shares the same interface as the GYPRO4300 high-performance gyro, making them complementary and easy to integrate into IMU and INS systems.
the AXO315 is ideal for avionics and Advanced Air Mobility applications, including:
- AHRS for VTOL, eVTOL, helicopters, and small aircraft
- GNSS-assisted positioning and navigation for aerial vehicles
- Flight control systems
AXO314 MEMS Accelerometer
High-dynamics 14 g digital accelerometer for surveying and mapping applications
Utilizing our unique closed-loop architecture introduced with AXO315, AXO314 offers outstanding repeatability and vibration rejection for applications in industrial temperature ranges. It is an excellent choice for integration into IMU and INS systems used in aerial, land, and marine surveying and mapping:
- GNSS-assisted navigation and positioning for Autonomous Underwater Vehicles (AUV) and Unmanned Ground Vehicles (UGV)
- Track Geometry measurement Systems
- Mining survey instruments
AXO301 MEMS Accelerometer
High-resolution 1 g accelerometer and inclinometer for industrial and railway applications
The AXO301 is a high-resolution single-axis closed-loop MEMS accelerometer designed for measuring acceleration and deceleration in high-vibration environments such as UGVs, robotics, and trains.
It provides a cost-effective alternative to quartz inclinometers and is housed in a hermetic SMD package, making it suitable for form factor-constrained applications:
- Static inclinometers
- Acceleration and deceleration measurement
- Train inclination measurement
- Motion control in robotics and construction machinery
Featuring a 24-bit digital SPI interface, the AXO301 integrates easily into high-performance IMU and INS systems. Its built-in self-test ensures initial verification of the sensor’s integrity and continuous operational functionality.
AXO305 MEMS Accelerometer
Digital 5 g MEMS accelerometer for motion control and positioning of land, sea, and subsea systems
The AXO305 is a high-performance single-axis closed-loop digital MEMS accelerometer with a ±5g input range. It features a remarkable 1-year composite bias repeatability of 1mg, making it ideal for integration into IMU, INS, and MRU systems for precise motion control and positioning of terrestrial, marine, and subsea vehicles:
- GNSS-assisted navigation for manned and unmanned ground vehicles and trains
- Ship motion control and dynamic positioning
- Motion control of underwater vehicles
- Positioning of AUV, ROV, and USV
This low-SWaP accelerometer is an excellent replacement for bulky and costly quartz accelerometers, featuring a 24-bit digital SPI interface for easy integration and reduced BOM components.
The hermetically sealed unit also includes a built-in self-test capability that provides initial verification of the sensor’s integrity and continuous operational functionality.
AXO®315T0 MEMS Accelerometer
Digital 14 g MEMS accelerometer for high-temperature energy applications
With low bias drift, high shock resistance, and continuous self-test, AXO®315T0 offers a compact, cost-effective alternative to quartz sensors for extreme energy sector applications.
Its hermetic ceramic SMD package ensures long-term reliability in high-temperature, high-vibration environments, while a 150 Hz bandwidth and 2 ms latency enable accurate real-time inclination and motion sensing.
| AXO315 | AXO314 | AXO301 | AXO305 | AXO315T0 | |
| Dimensions | 12 x 12 x 5.5 mm | 12 x 12 x 5.4 mm | 12 x 12 x 5.5 mm | 12 x 12 x 5.5 mm | 12 × 12 × 5.5 mm |
| Weight | 1.4 g | 1.5 g | 1.4 g | 1.4 g | – |
| Full-Scale Acceleration Range | ± 14g | ± 14g | ± 1g | ± 5g | ±14 g |
| Bandwidth | >300 Hz | >300 Hz | >15 Hz | 120 Hz | 150 Hz |
| 1 Year Composite Bias Repeatability | 1 mg | 1 mg | 1 mg | 1 mg | – |
| 1 Year Composite Scale Factor Repeatability | 600ppm | 600ppm | 1000ppm | 1000ppm | – |
| Bias Instability (Allan variance) | 4 μg | 4 μg | 3 μg | 3 μg | 3 μg |
| Velocity Random Walk (Allan variance) | 0.006 m/s/√hr | 0.006 m/s/√hr | 0.005 m/s/√hr | 0.005 m/s/√hr | 0.003 m/s/√h |
| Noise Density | 15 μg/√Hz | 15 μg/√Hz | 9 μg/√Hz | 10 μg/√Hz | 10 μg/√Hz |
| Vibration Rectification Error | 20µg/g² | 20µg/g² | 20µg/g² | 20µg/g² | 20µg/g² |
| Broadband Resolution | 328 µg | 328 µg | 50 µg | 100 µg | – |
