DJI AGRAS T50
Ready, Steady, Go.
DJI AGRAS T50 elevates drone agricultural operations to new heights. It inherits a powerful coaxial twin-rotor propulsion system and a split-type torque resistant structure for next level stability when carrying 40 kg spraying* or 50 kg spreading* payloads.
DJI AGRAS T50 leverages a Dual Atomizing Spraying System, Front and Rear Phased Array Radars, and a Binocular Vision System. DJI AGRAS T50 excels across multiple scenarios, from surveying* to spraying and spreading, guaranteeing stable operations and steady performance.
Heavy Payload
40 kg spraying*
50 kg spreading*
All Scenario Adaptability
Fully automatic and manual operation
Orchard Mode
Variable Rate Application
High Flow Rate
Spraying 16 L/min*
Spreading 108 kg/min*
Multidirectional Obstacle Sensing*
Multidirectional Obstacle Avoidance
Terrain Following up to 50°
Signal Stability
Offline operations
2 km O3 Transmission
Optional DJI Relay
Four Sprinkler Kit (Optional)
Reverse Directional Spray During Flight
4-sprinkler spraying, flow rate 24 L/min
Field Operations
21 hectares per hour
Orchard Operations
4 hectares per hour
Spreading Operations
1,500 kg of granules per hour*
Spraying System
High Rate, Atomized Spray,
Leak Free
DJI AGRAS T50's Dual Atomizing Spraying System provides an ultra-large flow rate of up to 16 L/min (2-sprinkler spraying). It produces uniform and fine spray droplets, and does not leak. DJI AGRAS T50 can be equipped with an additional pair of centrifugal sprinklers, increasing flow rate to 24 L/min (4-sprinkler spraying) for operations that require high application volume. When flying manually, use Reverse Directional Spray with four sprinklers to simplify operations without having to make turns.
DJI AGRAS T50 Spreading System
1,500 kg per hour*
DJI AGRAS T50's new spreader and spiral channel spinning disk significantly improve spreading efficiency and smoothness.
Tested for reliability,
durability, and safety
Spraying and spreading operations are frequent, intense, and take place in complex environments. DJI AGRAS T50 has passed hundreds of reliability tests and its main body is durable to help ensure safe operation.
Double your peace of mind
with Binocular Vision and Dual Radar
DJI AGRAS T50 is equipped with front and rear Active Phased Array Radars with double the number of RF channels* for higher detection precision. Together they enable Multidirectional Obstacle Sensing*, elevating operating safety. Two sets of Binocular Vision sensors enable DJI AGRAS T50 to accurately sense terrain and depict obstacles in detail, for automatic obstacle bypassing and Terrain Following* over steep slopes.
One drone for surveying*,
spraying, and spreading
DJI AGRAS T50 integrates aerial surveying*, spraying, and spreading into a single drone. A high-resolution FPV gimbal camera enables real-time capture of field and orchard images. Paired with DJI RC Plus and RTK service, you can generate high definition maps which underpin subsequent automatic flight routes. DJI AGRAS T50 can take off and perform automatic operations, all at the push of a button.
High Brightness Widescreen Remote Controller
DJI RC Plus has a 7-inch high brightness screen and an 8-core processor for smooth operations. Intelligent route planning minimizes distances flown with a full tank, greatly increasing operation efficiency. Manual mode allows you to control operations at will.
Sided Spraying
Orchard Mode Spreading
Signal Stability
The new and upgraded quad-antenna O3 Transmission system works offline even in areas without cellular coverage, offering a transmission range of 2 km *. Its anti-interference ability helps ensure high signal quality during operations over tall crops.
Fuel-Efficient Fast Charging
The D12000iE Multifunctional Inverter Generator features electronic fuel injection (EFI) technology and saves fuel use by 15%*. The DB1560 Intelligent Flight Batteries charge in an Air-Cooled Heat Sink, enabling ultra-fast charging in 9 minutes. The C10000 Intelligent Charger can charge batteries directly with utility power.
*The data is the measured values obtained under specific testing environments.