This drone-mounted multi-spectral integrated imaging system is equipped with a standard aviation gimbal, offering excellent shock resistance and stability, along with broad compatibility. The system highly integrates ultraviolet, visible light, and laser ranging modules, supporting 1–10× fusion optical zoom and 120× hybrid zoom capability in the visible light spectrum. Through its multi-functional integrated design, it enables collaborative operation of multi-spectral imaging technologies, allowing for joint diagnosis and comprehensive analysis of targets.
This product features a standard aviation-grade three-axis gimbal, offering excellent shock resistance, stability, and broad platform compatibility. The system is highly integrated with a high-sensitivity ultraviolet core, infrared core, HD visible light camera, and laser ranging module, truly achieving "all-in-one" functionality. Utilizing a proprietary parallel-axis overlay algorithm (patented technology with overlay accuracy ≤1 mrad), it supports 1–10× fusion zoom between ultraviolet and visible light, 1–5× zoom between ultraviolet and infrared, and 120× hybrid zoom for visible light, enabling flexible adaptation to various observation scenarios. By integrating multi-spectral imaging collaborative diagnosis technology, the system enables ultraviolet + visible light fusion, ultraviolet + infrared fusion, and split-screen display of infrared and visible light, significantly improving diagnostic accuracy and operational efficiency in complex scenarios such as power fault detection.
The Solar-Blind UV Camera is a high-sensitivity detection instrument specifically designed for the early warning of insulation faults in high-voltage electrical equipment within power systems. By capturing ultraviolet signals emitted by corona discharge and partial discharge in real time, it accurately locates hidden defects such as insulator contamination, conductor damage, and connection failures, enabling non-contact remote diagnosis. With its strong anti-interference capability and high-resolution imaging, the device can quantitatively analyze discharge intensity and development trends, providing precise data support for predictive maintenance of power grids. This effectively reduces the risk of fault-induced power outages and enhances the operational safety and economic efficiency of power systems.
DW9219B 4-in-1 UAV Pod integrates solar-blind UV sensor, infrared thermal imaging camera, 8-megapixel 10× optical zoom visible light camera, and ToF laser rangefinder. It enables precise detection of partial discharge, fire hazards, temperature anomalies, and target distance. Suitable for collaborative inspection across fields such as power, firefighting, and environmental protection, it provides efficient and accurate multi-spectral intelligent monitoring.
