Gyro stabilization | Platform | 2-axis |
Stable accuracy | ≤0.2mrad (RMS) | |
Pan | 360° continuously | |
Tilt | -90°~+90° | |
Pan speed | ≥100°/s | |
Tilt speed | ≥80°/s | |
Pan Accelerate speed | ≥100°/s2 | |
Tilt Accelerate speed | ≥80°/s2 | |
Repeat positioning accuracy | ±0.01°, ±0.003° | |
Day Camera | Sensor type | 1/1.8 '' Progressive Scan CMOS |
Pixels | 200Mp, 400Mp | |
Resolution | 1920(H) × 1080(V), 2560(H) × 1440(V) | |
Focal length | 10~550mm, 15~850mm, 11.3~1000mm, 15~120mm | |
Focus | Auto/Manual/Semi-auto | |
Minimum illumination | Color : 0.0005Lux/F1.4/AGC ON; Black and White : 0.0001Lux/F1.4/AGC ON | |
Optical fog penetration | Support | |
Thermal Camera | Detector type | Uncooled Vanadium Oxide Microbolometer |
Resolution | 640 × 512@17μm, 1280 × 1024@12μm | |
Spectrum | 8~14μm | |
NETD | ≤40mK@F1.0,300K | |
Focal length | 20~120mm, 30~150mm, 30~180mm, 25~225mm, 20~240mm, 30~300mm | |
Focus type | Electric focus/Auto focus | |
Digital zoom | 1×/2×/4×/8× | |
Pseudo-color | White Hot / Black Hot / Rainbow / Iron Red / Lava / Sky / Purple Orange / Gradient Red / Gradient Green / Gradient Blue | |
Image process | Nonuniformity Correction/Digital Filter Noise Reduction/DDE | |
General | OSD | Date, time, longitude, latitude, altitude, speed, azimuth and pitch information (displaying and blanking superimposed characters) |
Encode | H.265/H.264 | |
Interface protocol | ONVIF/GB28181 | |
Communication interface | 1×RS422/1×RJ45 | |
Power interface | DC24V, DC48V | |
RH | <90%RH | |
Protection grade | IP66 | |
Anti-salt-fog | PH value 6.5~7.2, continuous spraying for 48 hours, no surface change | |
Operating temperature | -40℃~+55℃ | |
Storage temperature | -55℃~+65℃ | |
Consumption | Average power consumption ≤80W, ≤100W | |
Weight | ≤50Kg, ≤100Kg | |
Dimension | 400mm × 600mm × 650mm, 920mm × 650mm × 930mm | |
Laser Rangefinder | 5km/10km/15km/20km Optional | |
Laser lighting | 500m/800m/1500m/2000m/3000m Optional |
Designed for missions that demand stability under extreme conditions, the U-shaped gyro stabilization platform delivers dependable performance with heavy and complex sensor payloads. Its distinctive open-frame structure allows easy installation of long-range cameras, thermal imagers, radar-linked optics, and laser devices, offering exceptional flexibility for system integrators.
Advanced dual-axis stabilization keeps imagery steady and usable even when deployed on fast-moving vessels, vehicles, or elevated installations exposed to wind and vibration. Rugged, military-grade construction ensures consistent operation in harsh maritime and field environments. The system is ideal for coastal and offshore surveillance, tactical reconnaissance, counter-drone monitoring, and industrial or infrastructure inspection where stable long-range imaging is critical.
Engineered with a reinforced open-frame architecture, the platform accommodates large and complex EO/IR payloads including long-range zoom cameras, cooled thermal imagers, laser designators, and multispectral sensor suites. The rigid mechanical structure maintains alignment and balance, ensuring dependable performance during extended missions with heavy equipment loads.
Incorporating precision gyroscopes and closed-loop servo control, the stabilization system delivers ultra-fine angular control and line-of-sight stability. It minimizes the impact of platform vibration, pitch, and roll, providing sharp, stable imagery on moving vehicles, vessels in rough seas, and airborne platforms.
A modular mechanical and electronic architecture allows quick payload swaps, sensor upgrades, and mission-specific configuration changes. Standardized electrical and communication interfaces simplify integration with external processors, operator consoles, fire-control systems, or unmanned platforms, reducing lifecycle and maintenance costs.
Designed for harsh operational environments, the system features a sealed, corrosion-resistant housing with protection against shock, vibration, salt fog, and heavy precipitation. Wide operating and storage temperature tolerances ensure reliable deployment in extreme climates and mission-critical conditions.
The system is engineered to support heavy electro-optical payloads, including long-range cameras, infrared imagers, and laser systems. Specific payload limits vary by configuration, but it is optimized for high-weight equipment required in complex missions.
Yes, its open architecture and standardized interfaces (ONVIF/GB28181 protocol support) enable seamless integration with most third-party video processing units, consoles, UAVs, and ground vehicles.
Absolutely. With military-grade protection (IP66 rating, salt-fog resistance) and an operating temperature range of -40℃ to +55℃, it performs reliably in harsh environments like heavy rain, strong winds, and high humidity.
Click here to make an enquiry
Gyro stabilization | Platform | 2-axis |
Stable accuracy | ≤0.2mrad (RMS) | |
Pan | 360° continuously | |
Tilt | -90°~+90° | |
Pan speed | ≥100°/s | |
Tilt speed | ≥80°/s | |
Pan Accelerate speed | ≥100°/s2 | |
Tilt Accelerate speed | ≥80°/s2 | |
Repeat positioning accuracy | ±0.01°, ±0.003° | |
Day Camera | Sensor type | 1/1.8 '' Progressive Scan CMOS |
Pixels | 200Mp, 400Mp | |
Resolution | 1920(H) × 1080(V), 2560(H) × 1440(V) | |
Focal length | 10~550mm, 15~850mm, 11.3~1000mm, 15~120mm | |
Focus | Auto/Manual/Semi-auto | |
Minimum illumination | Color : 0.0005Lux/F1.4/AGC ON; Black and White : 0.0001Lux/F1.4/AGC ON | |
Optical fog penetration | Support | |
Thermal Camera | Detector type | Uncooled Vanadium Oxide Microbolometer |
Resolution | 640 × 512@17μm, 1280 × 1024@12μm | |
Spectrum | 8~14μm | |
NETD | ≤40mK@F1.0,300K | |
Focal length | 20~120mm, 30~150mm, 30~180mm, 25~225mm, 20~240mm, 30~300mm | |
Focus type | Electric focus/Auto focus | |
Digital zoom | 1×/2×/4×/8× | |
Pseudo-color | White Hot / Black Hot / Rainbow / Iron Red / Lava / Sky / Purple Orange / Gradient Red / Gradient Green / Gradient Blue | |
Image process | Nonuniformity Correction/Digital Filter Noise Reduction/DDE | |
General | OSD | Date, time, longitude, latitude, altitude, speed, azimuth and pitch information (displaying and blanking superimposed characters) |
Encode | H.265/H.264 | |
Interface protocol | ONVIF/GB28181 | |
Communication interface | 1×RS422/1×RJ45 | |
Power interface | DC24V, DC48V | |
RH | <90%RH | |
Protection grade | IP66 | |
Anti-salt-fog | PH value 6.5~7.2, continuous spraying for 48 hours, no surface change | |
Operating temperature | -40℃~+55℃ | |
Storage temperature | -55℃~+65℃ | |
Consumption | Average power consumption ≤80W, ≤100W | |
Weight | ≤50Kg, ≤100Kg | |
Dimension | 400mm × 600mm × 650mm, 920mm × 650mm × 930mm | |
Laser Rangefinder | 5km/10km/15km/20km Optional | |
Laser lighting | 500m/800m/1500m/2000m/3000m Optional |
Designed for missions that demand stability under extreme conditions, the U-shaped gyro stabilization platform delivers dependable performance with heavy and complex sensor payloads. Its distinctive open-frame structure allows easy installation of long-range cameras, thermal imagers, radar-linked optics, and laser devices, offering exceptional flexibility for system integrators.
Advanced dual-axis stabilization keeps imagery steady and usable even when deployed on fast-moving vessels, vehicles, or elevated installations exposed to wind and vibration. Rugged, military-grade construction ensures consistent operation in harsh maritime and field environments. The system is ideal for coastal and offshore surveillance, tactical reconnaissance, counter-drone monitoring, and industrial or infrastructure inspection where stable long-range imaging is critical.
Engineered with a reinforced open-frame architecture, the platform accommodates large and complex EO/IR payloads including long-range zoom cameras, cooled thermal imagers, laser designators, and multispectral sensor suites. The rigid mechanical structure maintains alignment and balance, ensuring dependable performance during extended missions with heavy equipment loads.
Incorporating precision gyroscopes and closed-loop servo control, the stabilization system delivers ultra-fine angular control and line-of-sight stability. It minimizes the impact of platform vibration, pitch, and roll, providing sharp, stable imagery on moving vehicles, vessels in rough seas, and airborne platforms.
A modular mechanical and electronic architecture allows quick payload swaps, sensor upgrades, and mission-specific configuration changes. Standardized electrical and communication interfaces simplify integration with external processors, operator consoles, fire-control systems, or unmanned platforms, reducing lifecycle and maintenance costs.
Designed for harsh operational environments, the system features a sealed, corrosion-resistant housing with protection against shock, vibration, salt fog, and heavy precipitation. Wide operating and storage temperature tolerances ensure reliable deployment in extreme climates and mission-critical conditions.
The system is engineered to support heavy electro-optical payloads, including long-range cameras, infrared imagers, and laser systems. Specific payload limits vary by configuration, but it is optimized for high-weight equipment required in complex missions.
Yes, its open architecture and standardized interfaces (ONVIF/GB28181 protocol support) enable seamless integration with most third-party video processing units, consoles, UAVs, and ground vehicles.
Absolutely. With military-grade protection (IP66 rating, salt-fog resistance) and an operating temperature range of -40℃ to +55℃, it performs reliably in harsh environments like heavy rain, strong winds, and high humidity.
Click here to make an enquiry
