The IMU-9000 delivers military-grade inertial measurement for eVTOL aircraft, ensuring safe operations even in GNSS-denied environments.
Urban environments and adverse weather present unique navigation challenges that traditional inertial systems cannot handle.
Multi-story buildings create signal reflections that degrade GNSS accuracy. Reliable autonomous flight requires navigation that doesn't depend solely on satellite signals.
Single-sensor systems are vulnerable. Aviation-grade redundancy is essential for passenger safety and regulatory compliance in air mobility applications.
Every gram counts in electric flight. Traditional aviation-grade inertial systems are too heavy and power-hungry for efficient eVTOL operations.
The IMU-9000 combines cutting-edge sensor technology with proven reliability.
Five-axis laser gyro technology delivers industry-leading attitude accuracy of ±0.001°, with acceleration measurements accurate to 50 µg.
Advanced visual-inertial fusion and terrain referencing enable autonomous flight without satellite signals. Critical for urban operations and electronic warfare scenarios.
Three independent IMU channels with vote-out comparison. Automatic fault detection and isolation ensures continuous operation even with hardware failures.
Integrates IMU with dual-antenna GNSS, magnetometer, barometer, and temperature sensors using Kalman filtering for optimal accuracy.
Continuous self-test and prognostics predict maintenance needs before failures occur. Digital twin integration for fleet-wide analytics.
Ruggedized for extreme environments: shock, vibration, temperature, humidity, and salt fog. Proven in military and civilian applications.
Military-grade performance in a lightweight, efficient package.
Versatile solutions for diverse aviation requirements.
Certified navigation for commercial air taxi operations. Supports Level 4 autonomy with fail-operational redundancy.
Extended range deliveries with precision waypoint navigation. Automatic return-to-base on GNSS loss.
Precision landing in vertiports with building interference. Multi-sensor fusion for reliable terminal operations.
Rapid deployment medical transport and search/rescue. GNSS-denied navigation for disaster scenarios.
Designed and qualified to the most stringent aviation standards.
Environmental conditions and test procedures for airborne equipment. Full qualification across temperature, vibration, shock, and electromagnetic compatibility.
Design assurance for airborne electronic hardware. DAL-A level processes ensure the highest reliability for safety-critical avionics.
Quality management systems certification. Consistent manufacturing excellence and continuous improvement processes.
Military standard for environmental engineering considerations. Proven performance in extreme operational environments.
Our systems power next-generation aviation from development through certified operations.
"The IMU-9000 provided the navigation precision we needed for SL-40 certification. Zero failures across 500+ flight hours."
"GNSS-denied navigation is critical for our urban operations. The IMU-9000's fusion capabilities exceeded expectations."
"Weight savings over legacy systems freed up 12% payload capacity. Performance was a bonus—this is now our standard."
Speak with our engineering team about how the IMU-9000 can meet your specific requirements.