DJI Agras T50 Drone
by DJIDJI 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.
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- DJI Agras T50 Drone
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[1] or 50 kg spreading[1] 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[2] to spraying and spreading, guaranteeing stable operations and steady performance.
*The appearance of the product is subject to the actual product.
Spraying System
High Rate, Atomized Spray, Leak Free
Magnetic Drive Impeller Pump
Dual pump flow rate of up to 24 L/min[3]. This is a 100% increase compared with the previous generation, to meet demands of fields, orchards, and high-temperature environments.
Dual Atomizing Centrifugal Sprinklers
Droplet size can be adjusted between 50-500 μm, depending on the chemicals used.
Brand-New Solenoid Valves
Precision starting and stopping eliminates leaking.
DJI AGRAS T50 Spreading System
1,500 kg per hour[10]
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[17] for higher detection precision. Together they enable Multidirectional Obstacle Sensing[6], 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[11] and Terrain Following[11] over steep slopes.
One drone for surveying[2], spraying, and spreading
DJI AGRAS T50 integrates aerial surveying[2], 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.
Orchard Aerial Survey[2]
DJI AGRAS T50 supports obstacle bypassing and Terrain Following for surveying[2] of orchards on slopes up to 20°[5]. With DJI RC Plus and its real-time mapping capabilities, it can automatically identify fruit trees and obstacles. Based on the distribution of the fruit trees, it can generate accurate and fully automatic 3D flight routes.
5 hectare orchard mapped in 10 minutes[12]
Orchard 3D Map
Field Aerial Survey[2]
Area Route
13 hectare field mapped in 10 minutes[12]
Survey the entire field, automatically identify field boundaries and obstacles, and plan more precise flight routes.
Boundary Route
13 hectare field boundary mapped in 3 minutes[12]
Suitable for fields without obstacles in the middle.
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.
- Multi Plot Operations
- Orchard Route Segmentation
- Orchard Mode Spreading
- Sided Spraying
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 [13]. Its anti-interference ability helps ensure high signal quality during operations over tall crops.
DJI Relay (Optional)
DJI Relay ensures smooth real-time video transmission for safer flights even in complex operation scenarios with signal obstructions.
Fuel-Efficient Fast Charging
The D12000iE Multifunctional Inverter Generator features electronic fuel injection (EFI) technology and saves fuel use by 15%[15]. The DB1560 Intelligent Flight Batteries charge in an Air-Cooled Heat Sink, enabling ultra-fast charging in 9 minutes[7]. The C10000 Intelligent Charger can charge batteries directly with utility power.
Smart Agriculture Ecosystem
Pair DJI AGRAS T50 with the new Mavic 3M and leverage multispectral data to minimize inputs and maximize yields. Survey your farm and generate prescription maps to guide variable rate fertilization and crop protection. Quickly patrol fields to identify growth stress.
*The appearance of the product is subject to the actual product.
[1] Data was measured at sea level. The payload weight is greatly affected by the ambient temperature and altitude. The take-off payload weight needs to be reduced by 10 kg for every 1,000 m increase in altitude. The DJI Agras app will recommend the payload weight according to the current status and surroundings of the aircraft. When adding materials, the maximum weight should not exceed the recommended value, otherwise flight safety may be compromised.
[2] RTK is required.
[3] Maximum spraying flow rate with two sprinklers is 16 L/min. Maximum spraying flow rate with four sprinklers is 24 L/min.
[4] Data measured with 4 mm diameter urea. The maximum flow rate may vary depending on the granule size, density, and surface smoothness of different fertilizers.
[5] To ensure a high success rate of surveying and mapping, DJI AGRAS T50 can automatically adjust its flight speed based on the hill slope. The steeper the slope, the slower its speed.
[6] The effective sensing range and its ability to avoid and bypass obstacles will vary depending on the ambient light, rain, fog, and the material, position, shape, and other properties of the obstacles. It is recommended that linear objects such as wires or inclined lines be planned as obstacles. Downward sensing is used for Terrain Follow and Altitude Stabilization. The sensing in other directions is used for Obstacle Avoidance.
[7] Charging from 30% to 95%. Factors impacting charging time: Altitude of the charging station; Charging cable meets requirements for fast charging; Battery cell's temperature is in the range of 15° to 70° C (59° to 158° F)
[8] Data was measured with the DJI AGRAS T50 and may vary based on operating environment and parameters. Flight parameters for this test: Dosage of 15 L/ha, spraying width of 11 m, flight speed of 7 m/s, and height of 3 m.
[9] Data was measured with the DJI AGRAS T50 and may vary based on operating environment and parameters. Flight parameters for this test: Dosage of 90 L/ha, spraying width of 4 m, flight speed of 4 m/s, and height of 3 m.
[10] Data was measured with urea and may vary by granule type, operating environment, and parameters. Spreading parameters for this test: Dosage of 225 kg/ha, spreading width of 8 m, flight speed of 10 m/s, height of 4 m, and spinning disk speed of 1,000 r/min.
[11] Obstacle Bypassing is supported in the forward direction. Obstacle Bypassing features are not supported at night or in low light environments. Fly with caution. Obstacle Bypassing is not recommended around electric or guy wires.
[12] Refers to the mapping time after completing the aerial survey. Time varies depending on the firmware version, type of aerial survey, and other factors.
[13] Measured at a flight altitude of 2.5 meters, without obstruction or electromagnetic interference.
[14] Batteries are covered by warranty for up to 1,500 charging cycles or 12 months, whichever ends first.
[15] Compared with third-party general-purpose generators equipped with a smart charger.
[16] To achieve fast charging, the C10000 Intelligent Charger, the C8000 Intelligent Charger, the generator, or utility output power must use the fast-charging connection method that meets the requirements.
[17] Compared with T40 Omnidirectional Active Phased Array Radar.
[18] Generator only available in selected countries and regions. Please contact your local dealer for more details.
Aircraft | |
Weight | 39.9 kg (excl. battery) |
52 kg (incl. battery) | |
Max Takeoff Weight[1] | Max takeoff weight for spraying: 92 kg (at sea level) |
Max takeoff weight for spreading: 103 kg (at sea level) | |
Max Diagonal Wheelbase | 2200 mm |
Dimensions | 2800×3085×820 mm (arms and propellers unfolded) |
1590×1900×820 mm (arms unfolded and propellers folded) | |
1115×750×900 mm (arms and propellers folded) | |
Hovering Accuracy Range (with strong GNSS signal) | RTK enabled: |
Horizontal: ±10 cm, Vertical: ±10 cm | |
RTK disabled: | |
Horizontal: ±60 cm, Vertical: ±30 cm (radar module enabled: ±10 cm) | |
RTK/GNSSOperating Frequency | RTK: |
GPS L1/L2, GLONASS F1/F2, BeiDou B1I/B2I/B3I, Galileo E1/E5b, QZSS L1/L2 | |
GNSS: | |
GPS L1, GLONASS F1, BeiDou B1I, Galileo E1, QZSS L1 | |
Max Configurable Flight Radius | 2000 m |
Max Wind Resistance | 6 m/s |
Propulsion System - Motors | |
Stator Size | 100×33 mm |
KV | 48 rpm/V |
Power | 4000 W/rotor |
Propulsion System - Propellers | |
Material | Nylon carbon fiber filament |
Dimension | 54 in (1371.6 mm) |
Propeller Rotation Diameter | 1375 mm |
Quantity | 8 |
Dual Atomizing Spraying System - Spray Tank | |
Material | Plastic (HDPE) |
Volume | 40 L |
Operating Payload [1] | 40 kg[1] |
Quantity | 1 |
Dual Atomizing Spraying System - Sprinklers | |
Model | LX8060SZ |
Quantity | 2 |
Nozzle Distance | 1570 mm(Rear Nozzles) |
Droplet Size | 50-500 μm |
Effective Spray Width [2] | 4-11 m (at a height of 3 m above the crops) |
Dual Atomizing Spraying System - Delivery Pumps | |
Type | Impreller pump (magnetic drive) |
Quantity | 2 |
Single Pump Flow Rate | 0-12 L/min |
Max Flow Rate | 16 L/min (2 sprinklers); 24 L/min (4 sprinklers) |
T50 Spreading System | |
Compatible Material Diameter | 0.5-5 mm dry granules |
Spread Tank Volume | 75 L |
Spread Tank Internal Load [10] | 50 kg |
Spread Width | 8 m |
Phased Array Radar System | |
Model | RD241608RF (forward phased array radar); RD241608RB (rear phased array radar) |
Terrain Follow | Max slope in mapping-free operation: 50° |
Altitude detection range: 1-50 m | |
Stabilization working range: 1.5-30 m | |
Obstacle Avoidance [4] | Obstacle sensing range (multidirectional): 1-50 m |
FOV: | |
Forward phased array radar: horizontal 360°, vertical ±45°, upward ±45° (cone) | |
Rear phased array radar: vertical 360°, horizontal ±45° | |
Working conditions: flying higher than 1.5 m over the obstacle at a horizontal speed no more than 10 m/s and vertical speed no more than 3 m/s. | |
Safety limit distance: 2.5 m (distance between the front of propellers and the obstacle after braking) | |
Sensing direction: 360° multidirectional sensing | |
Binocular Vision System | |
Measurement range | 0.5-29 m |
Effective Sensing Speed | ≤10 m/s |
FOV | Horizontal: 90°, Vertical: 106° |
Operating Environment | Adequate light and discernible surroundings |
Remote Controller | |
Model | RM700B |
Operating Frequency [5] | 2.4000-2.4835 GHz, 5.725-5.850 GHz |
Max Transmission Distance | 7 km (FCC), 5 km (SRRC), 4 km (MIC/CE); (unobstructed, free of interference, and at an altitude of 2.5 m) |
Wi-Fi Protocol | Wi-Fi 6 |
Wi-Fi Operating Frequency [5] | 2.4000-2.4835 GHz, 5.150-5.250 GHz, 5.725-5.850 GHz |
Bluetooth Protocol | Bluetooth 5.1 |
Bluetooth Operating Frequency | 2.4000-2.4835 GHz |
GNSS | GPS+Galileo+BeiDou |
Screen | 7.02-in LCD touchscreen, with a resolution of 1920×1200 pixels, and high brightness of 1200 cd/m2 |
Operating Temperature | -20° to 50° C (-4° to 122° F) |
Storage Temperature Range | Less than one month: -30° to 45° C (-22° to 113° F) |
One to three months: -30° to 35° C (-22° to 95° F) | |
Six months to one year: -30° to 30° C (-22° to 86° F) | |
Charging Temperature | 5° to 40° C (41° to 104° F) |
Internal Battery Runtime | 3 hours 18 minutes |
External Battery Runtime | 2 hours 42 minutes |
Charging Type | |
It is recommended to use a locally certified USB-C charger at a maximum rated power of 65 W and maximum voltage of 20 V such as the DJI 65W Portable Charger. | |
Charging Time | 2 hours for internal battery or internal and external battery (when remote controller is powered off and using a standard DJI charger) |
DB1560 Intelligent Flight Battery | |
Model | DB1560 Intelligent Flight Battery (BAX702-30000mAh-52.22V) |
Weight | Approx. 12.1 kg |
Capacity | 30000 mAh |
Nominal Voltage | 52.22 V |
D12000iE Multifunctional Inverter Generator | |
Output Channel | 1.DC charging output 42-59.92V/9000W |
2.Power supply for Air-Cooled Heat Sink 12 V/6 A | |
3.AC output 230V/1500W or 120V/750W [8] | |
Battery Charging Time[11] | To fully charge one battery (DB1560 battery) takes 9-12 mins |
Fuel Tank Capacity | 30 L |
Starting Method | Starting the Generator via the One-Button Start Switch |
Max Power of Engine | 12000 W |
Fuel Type | Unleaded gasoline with RON ≥91 (AKI ≥87) and alcohol content less than 10% |
(*Brazil: unleaded gasoline with RON ≥ 91 and alcohol content of 27%) | |
Reference Fuel Consumption [9] | 500 ml/kWh |
Engine Oil Model | SJ 10W-40 |
C10000 Intelligent Power Supply | |
Model Number | CSX702-9500 |
Dimensions | 400 × 266 × 120 mm |
Weight | Approx. 11.4 kg |
Input/Output | Input (Main): 220-240 VAC, 50/60 Hz, 24 A MAX |
Input (Auxiliary): 220-240 VAC, 50/60 Hz, 24 A MAX | |
Output: 59.92 VDC MAX, 175 A MAX, 9000 W MAX | |
Input (Main): 100-120 VAC, 50/60 Hz, 16 A MAX | |
Input (Auxiliary): 100-120 VAC, 50/60 Hz, 16 A MAX | |
Output: 59.92 VDC MAX, 60 A MAX, 3000 W MAX | |
Charging Time[11] | Fully charges a battery in 9 to 12 minutes (DB1560 Intelligent Flight Battery) |
Protection Functions | Over-voltage, over-charge, under-voltage and over-temperature protection. |
Charging Safety | AC wire protection, power wire protection, and charge connector protection |
Relay | |
Model | RL01-65 |
Dimensions | 120×110×100 mm |
Weight | ≤575 g |
Input Voltage [6] | 9 V3 A / 12 V2.5 A / 15 V2 A |
Power Consumption | 9 W (SRRC), 12 W (FCC) |
Capacity | 6500 mAh |
Operating Time | 4 hours |
Operating Frequency [5] | 2.4000-2.4835 GHz, 5.725-5.850 GHz |
Max Transmission Distance | 5 km (SRRC), 4 km (MIC/KCC/CE), 7 km (FCC) |
(unobstructed, free of interference, and at a flight altitude of 2.5 m) | |
Charging Time | 2 hours and 20 minutes (when using a standard DJI charger) |
IP Rating [6] | IP55 |
Definition | [1] Data was measured at sea level. The payload weight is greatly affected by the ambient temperature and altitude. The payload weight needs to be reduced by 10 kg for every 1,000m increase in altitude. The DJI Agras app will recommend the payload weight according to the current status and surroundings of the aircraft. When adding materials, the maximum weight should not exceed the recommended value, otherwise flight safety may be compromised. |
[2] The spray width of the spraying system depends on the operating scenario and demand for coverage evenness. | |
[3] The spread width of the spreading system depends on the operating scenario and demand for coverage evenness. | |
[4] The effective sensing range and its ability to avoid and bypass obstacles will vary depending on the ambient light, rain, fog, and the material, position, shape, and other properties of the obstacles. Downward sensing mainly assists in Terrain Follow and Altitude Hold. The sensing in other directions is used for Obstacle Avoidance. | |
[5] 5.8 GHz frequency is unavailable in some contries. Check local regulations for more information. | |
[6] Use chargers or external power supplies that meet the specifications. Otherwise, the device may not work normally. | |
[7] The protection rating may be reduced due to improper use and damage caused by external forces or environmental factors. | |
[8] The actual power and voltage may vary according to local regulations. | |
[9] Measured using RON 92 gasoline at near sea level with an ambient temperature of 25° C, while charging at 9 kW. | |
[10] The DJI Agras app will intelligently recommend the payload weight limit for the spread tank according to the current status and surroundings of the aircraft. DO NOT exceed the recommended payload weight limit when adding material to the spread tank. Otherwise, the flight safety may be affected. | |
[11]Factors impacting charging time: Altitude of the charging station; Charging cable meets requirements for fast charging; Battery cell's temperature is in the range of 15° to 70° C (59° to 158° F) |