As good as new demo unit including 2pcs TB55 batteries
DJI Matrice 200 series V2 brings new and improved features to DJI’s leading drone for commercial and industrial tasks. The second-generation model retains its rugged all-weather design, simple setup and easy configuration, while upgrading key systems to provide safer, more reliable, and more secure operation. Improvements to this platform lay the technical foundation for more advanced commercial drone operations including nighttime and BVLOS flights. From construction and infrastructure inspection to public safety and search and rescue, the Matrice 200 Series V2 provides a versatile platform for organizations ready to transform their daily operations with drone technology.
Key Features:
Reliable Transmission
Equipped with OcuSync 2.0, the drones now support automatic dual frequency band switching between 2.4GHz and 5.8GHz for up to 8 km maximum transmission range, delivering reliable, high-resolution, low-latency digital video transmission back to the pilot.
Data Security
All data transmitted through OcuSync 2.0 is encrypted using the leading AES-256 standard, ensuring critical mission information is protected and can only be accessed by authorized parties.
Flight Safety
Designed with U.S. Federal Aviation Administration Night Waiver standards in mind, anti-collision beacons have been added on the top and bottom of the drone to improve flight safety during low-light conditions and at night. The drone is also equipped with DJI’s AirSense system using an ADS-B receiver to provide drone pilots with awareness of approaching air traffic that may pose a collision risk.
Flight Performance
Pilots using multiple drone payloads during their operations can now calibrate the drone’s new center of gravity with ease from the DJI Pilot app for better flight performance.
Data Accuracy
A new TimeSync system continuously aligns the flight controller, cameras, GPS module and RTK module, as well as any third-party payloads or onboard accessories, fixing the position data to the center of the image frame to achieve improved data accuracy.
