Dynamic platform stabilization / 動態平台穩定






Guided ammunition / 制導彈藥
Accelerometer for missile guiding systems / 加速度導彈導向系統
Dynamic GPS tracking systems / 動態GPS跟踪系統
Dynamic platform stabilization / 動態平台穩定
Ground motion detection / 地面運動檢測
AHRS MEMS accelerometers / (AHRS)加姿態航向參考系統,MEMS加速度計
Inertial Navigation Systems / 慣性導航系統
Helicopter Attitude, Heading and Reference System (AHRS) / 直升機姿態,航向參考系統(AHRS)
Active Suspension Systems / 主動懸掛系統
Active Tilting Systems / 主動傾斜系統
Bogie Monitoring Systems / 轉向架監測系統
Train Positioning Systems / 列車定位系統
Wind Turbines / 風力發電機
Drilling sensor / 鑽孔傳感器
Static Antenna Stabilization / 靜態天線穩定
Automotive testing accelerometer / 汽車加速度檢測
Machine Health Monitoring (MHM) / 機器健康監測
Structural Health Monitoring (SHM) / 結構健康監測
Inclination monitoring / 傾斜角監控
Seismic Detection / 地震探測

Dynamic platform stabilization / 動態平台穩定

When it comes to acquiring a target or ensuring the delivery of a payload, it is essential for mobile platforms to have a reliable reference system that maintains a constant orientation of the equipment, regardless of external factors such as the motion of the vehicle the platform is mounted on. As such, stabilization is key when working with such instruments.

Let’s take a UAV-mounted targeting camera for example, an instrument mounted on a platform that has to endure through perturbations such as strong gusts of wind and parasitic movement of the UAV. Without proper stabilization, the images shot with this camera might be blurry or out of frame, rendering the precise acquisition of a target nearly impossible.

Gyro stabilized platforms

Platforms were traditionally stabilized mechanically using motors that would compensate for the movement of the platform. However, the emergence of high-performance gyroscopes specifically designed for stabilizing mobile mounts rendered this practice obsolete. The ideal gyro for such tasks should have high shock survivability, relatively low bias and a very low noise so that they can be used directly in combat. High-end gyros for platform stabilization include vibrating gyros, fiber-optical gyros (FOGs) and ring laser gyros (RLGs), the first operating based on Coriolis force and the two latter of which operate under the Sagnac Effect, exploiting the properties of light.

The Colibrys solution

Our recommended sensor for this application is the GM1000 Module, a packaged version of the GS1000 Gyro housed in a miniature container with all its electronic components. Each GM1000 gyro is factory-calibrated and compensated for temperature effects in order to provide high-accuracy differential analogue output voltage or a 24-bit digital output through RS422 interface. Powered by a single 5 to 18Vdc supply for seamless integration, this unit has already proven operational in such demanding applications as remotely controlled weapon stations, camera platform stabilizations, electro-optical platform stabilization with MTBF of 1.000.000 hours.
The GM1000 is the ideal gyro for weapons platform stabilization as it demonstrates excellent bias over temperature performance, unmatched performance in presence of vibration, low power consumption and rugged durability. Light weight, low-noise and excellent bias renders this device an ideal choice for platform stabilization applications.


上次更新日期: 2022年08月03日。