CHCNAV C30 Camera
The CHCNAV’s C30 are advanced cameras designed to provide high-quality imaging solutions for photogrammetric applications and to complement LiDAR survey data.
The C30 is a professional, high-performance, lightweight oblique photogrammetry system developed by CHCNAV. Its advanced design allows it to capture clear and accurate oblique photos.
UAV Products
LIGHTWEIGHT & SMALL SIZE
UAV Systems
UNIVERSAL INSTALLATION
The C5 and C30 cameras’ universal installation design makes them compatible with a wide range of fixed-wing and rotor UAV platforms. Both cameras are supported by the CHCNAV’s BB4 Mini and P330 Pro drones as well as the DJI’s M300 RTK. The Alphaport (the A-type hardware interface) allows the C5 and C30 to be easily mounted into various UAVs and converted into the DJI Skyport connector for extended compatibility.
INTEGRATED QUICK-RELEASE INTERFACE
Aplhaport provides a speedy and secure way to install and disconnect cameras to and from UAVs without additional tools or complicated procedures. In addition, Alphaport includes power and data communications, reducing wiring and connections’ complexity. As a result, a more efficient and productive workflow that ensures the camera remains stable and secure even in challenging weather conditions is achieved.
PLUG-IN MEMORY CARD
Specific high-speed data transfer options are available from the C5 and C30 cameras to ensure efficient and reliable access to your data. The C5 camera features 256 GB internal memory with a transfer rate of up to 80 Mb/s via a USB-C connection. The C30 camera comes with a 640 GB plug-in memory card for fast copy speeds of up to 300 Mb/s and easy transfer of images directly from the memory card to your computer. With the C5 and C30 cameras, large amounts of data can be transferred quickly and easily without performance issues.
Yes, oblique UAS cameras such as the C30 capture high-resolution images and 3D models of construction sites, providing accurate progress monitoring, site inspections, and volume measurements, enhancing project management and safety.
They use advanced imaging sensors and stabilization technologies to capture clear and precise images. Post-processing software further enhances data accuracy, ensuring reliable results for analysis and mapping.
Oblique UAS cameras can be used alongside GNSS receivers, ground control points, and mapping software. The integrated data provides comprehensive and detailed maps, enhancing the quality and utility of geospatial projects.