DJI Agras T40 Spraying Drone (price excludes gst)
$21,591.00
Key features:
- The T40 comes with several design improvements that enable more uniform spraying, three-minute disassembly, as well as better durability and corrosion resistance. The drone further supports real-time weight monitoring sensors to optimize spreading and provide accurate refill alerts.
- DJI has equipped the T40 with an onboard mapping camera and an adjustable gimbal so that the drone can collect farmland and orchard images in real time, build maps locally, and identify plot boundaries and obstacles automatically for intelligent route planning and efficient spraying and spreading.
- Further, with the DJI Smart Agriculture cloud platform, users can automate field inspections, crop growth analysis, and disease monitoring. In addition, pairing this system with the DJI P4 Multispectral drone allows farmers to apply solutions based on specific variables according to an automatically-generated farmland prescription map.
- Meanwhile, DJI T40’s new and improved 30,000 mAh intelligent flight battery promises an ultra-long service life with 1,500 charges. The smart charging hub can power a battery fully in 9 minutes.
The AGRAS T40 is equipped with the revolutionary Coaxial Twin Rotor design, enabling it to carry a spray load of 40 kg and a spread load of 50 kg (70 L). The aircraft is built in with a Dual Atomized Spraying System, DJI Terra, Active Phased array Radar and Binocular Vision. It supports multiple missions from surveying, mapping, to spraying and spreading, helping you achieve ultimate precision in your agricultural operations.
One For All
The newly release DJI AGRAS T40 Agriculture Drone is equipped with the revolutionary Coaxial Twin Rotor design, enabling it to carry a spray load of 40 kg[1]and a spread load of 50 kg (70 L)[1]. The aircraft is built in with a Dual Atomized Spraying System, DJI Terra, Active Phased array Radar and Binocular Vision. It supports multiple missions from surveying, mapping, to spraying and spreading, helping you achieve ultimate precision in your agricultural operations.
Massive Payload Increase Thanks to the Coaxial Twin Rotor
The DJI AGRAS T40 Agriculture drone features a coaxial twin rotor design that increases the payload capacity by 30% with a maximum payload of 50 kg [1]. Its foldable design reduces the aircraft size by 70% for greater portability. Perfect for for Australian Farmer who needs to move the drone from one farming site to another.
Spraying System
Dual Atomization for Even Spraying
This agriculture drone also has a superior dispense rate of 12 L/min, allowing the drone to applied even spraying on the field or an orchard.
Magnetic Drive Impeller Pump
The new magnetic transmission design completely isolates the pesticide from the motor, making the aircraft corrosion-proof and ultra-durable. Quick disassembly by hand for easy cleaning
Dual Atomized Centrifugal Sprinkler
The dual atomized spray disc ensures even droplets and more efficient pesticide usage. Furthermore, The proprietary centrifugal valve prevents leakage, avoids over-fertilization, and reduces pesticide use while protecting the environment.
T40 spreading system (50kg payload [1])
Enhanced Spreading Efficiency for Superior Performance
Real-time weighing - The aircraft is equipped with a weighing sensor that monitors the spread quantity and remaining payload
Fast disassembly and cleaning - The spreading device can be dismantled in 3 minutes and washed with water.
Active Phased Array Radar + Binocular Vision
Omnidirectional Obstacle Sensing
The Active Phased Array Radar is incorporated with a binocular vision sensor system to provide 360-degree horizontal omnidirectional obstacle sensing, offering optimal security. The detection distance of up to 50 m[8] allows for intelligent terrain following, smooth scaling and bypassing of multiple obstacles[9].
Mapping, Spraying and Spreading, All in One
The DJI AGRAS T40 Agriculture drone combines mapping, spraying and spreading functions, while its UHD camera and adjustable gimbal enable easy capture of your desired view. Australian farmland and orchard images can be captured in real time, and local maps can be generated using the remote controller with the D-RTK 2 Mobile Station. The system detects land boundaries and obstacles automatically, for quicker planning of flight routes over farmland and hilly orchards.
Fully Enhanced Remote Controller for Smoother, Faster Mapping
The 8-core processor makes mapping of 6.67 hectares possible in 10 minutes[10]. Minimizes wasted journeys with intelligent route planning, for greater efficiency. The large 7-inch high brightness screen offers a broader view with refined detail. A wide range of custom physical buttons provides flexible control.
Robustly Tested for Ultimate Reliability
The core components are designed to withstand complex and harsh farmland environments. They have passed a host of rigorous tests such as corrosion prevention, high and low temperature, and aging tests, to ensure peace of mind for the user.
Ultra-Fast Charging
12000W Multifunctional Inverter Generator with new EFI technology and 15% fuel saving[3]. The charging station produces 1500W AC output, sufficient to power the remote controller, water pump, reloader, lights, and other components. The 30000mAh Intelligent Flight Battery with its standard air-cooled heat sink can cool down rapidly.
DJI Agras Intelligent Cloud
By pairing DJI AGRAS T40 with the Phantom 4 Multispectral, the platform allows you to perform variable spraying/spreading operations with precision based on the farmland’s prescription map. The feature is useful for the spraying of fertilizers on rice, fertilizers and defoliants on cotton crops, and nutrient solutions on soybeans and corn.
Aircraft Parameters |
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Total weight | 38 kg (without battery)
50 kg (with battery) |
Max Takeoff Weight[1] | Max takeoff weight for spraying: 90 kg (at sea level)
Maximum takeoff weight for spreading: 101 kg (at sea level) |
Max Diagonal Wheelbase | 2184 mm |
Dimensions | 2800 mm × 3150 mm × 780 mm (arms & propellers unfolded)
1590 mm × 1930 mm × 780 mm (arms unfolded, propellers folded) 1125 mm × 750 mm × 850 mm (arms folded) |
Hovering Accuracy Range (with strong GNSS signal) | RTK positioning enabled: ±10 cm horizontal, ±10 cm vertical
RTK positioning disabled: ±60 cm horizontal and ±30 cm vertical (radar enabled: ±10 cm) |
RTK/GNSS Operating Frequency | RTK: GPS L1/L2, GLONASS F1/F2, BeiDou B1/B2, Galileo E1/E5
GNSS: GPS L1, GLONASS F1, Galileo E1, BeiDou B1 |
Hovering Time[2] | Hovering without payload: 18 min (@30000 mAh & takeoff weight 50 kg)
Hovering and spraying with full payload: 7 min (@30000 mAh & takeoff weight 90 kg) Hovering and speading with full payload: 6 min (@30000 mAh & takeoff weight 101 kg) |
Max flight radius can be set | 2000 m |
Max Wind Resistance | 6 m/s |
Propulsion System - Motor |
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Stator Size | 100×33 mm |
Motor KV Value | 48 RPM/V |
Motor Power | 4000 W/rotor |
Propulsion System - Propeller |
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Diameter | 54 inch |
Rotor Quantity | 8 |
Dual Atomized Spraying System - Operation Box |
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Operation Box Capacity | Full load 40 L |
Operating Payload | Full load 40 kg[1] |
Dual Atomized Spraying System - Sprinkler |
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Sprinkler Model | LX8060SZ |
Sprinkler Quantity | 2 |
Droplet Size | 50-300 μm |
Max Effective Spray Width[3] | 11 m (relative operating altitude 2.5 m, flight speed 7 m/s) |
Dual Atomized Spraying System - Water Pump | |
Pump Model | Magnetic Drive Impeller Pump |
Max Flow Rate | 6 L/min*2 |
T40 Spreading System |
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Applicable Materials | Solid dry particles with a diameter of 0.5 to 5 mm |
Spread Tank Volume | 70 L |
Spread Tank Internal Load | 50 kg[1] |
Spread Width of Spreading System[4] | 7 m |
Recommended Operating Temperature | 0°C to 40°C (32°F to 104°F) |
Active Phased Array Omnidirectional Radar |
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Model Number | RD2484R |
Terrain Follow | Max incline: 30° |
Obstacle Avoidance[5] | Sensible distance (horizontal): 1.5-50 m
FOV: 360° horizontal, ±45° vertical Operating conditions: Flying higher than 1.5 m over the obstacle at a speed not exceeding 7 m/s Safe distance: 2.5 m (distance between the propeller tip and obstacle when the aircraft is hovering after braking) Sensing direction: horizontal omnidirectional avoidance; Sensible distance (above): 1.5-30 m FOV: 45° Operating conditions: Available during takeoff, landing, and ascending when an obstacle is more than 1.5 m above the aircraft Safe distance: 2.5 m (distance between the top of the aircraft and the obstacle when the aircraft is hovering after braking) Sensing direction: Upward |
Active Phased Array Backward and Downward Radar |
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Model Number | RD2484B |
Altitude Detection[5] | Within the altitude detection range: 1-45 m
Fixed altitude range: 1.5-30 m |
Rear Obstacle Avoidance[5] | Sensible distance (rear): 1.5-30 m
FOV: ±60° horizontal, ±25° vertical Operating conditions: Available during takeoff, landing, and ascending when an obstacle is more than 1.5 m behind the aircraft and the flight speed does not exceed 7 m/s Safe distance: 2.5 m (distance between the propeller tip and obstacle when the aircraft is hovering after braking) Sensing direction: backward |
Binocular Vision System | |
Measurable Range | 0.4-25 m |
Effective Sensing Speed | ≤7 m/s |
FOV | Horizontal: 90; Vertical: 106° |
Work Environment Requirements | Normal lighting with clearly textured surfaces |
Intelligent Remote Controller |
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Model | RM700 |
O3 Pro Operating Frequency[6] | 2.4000 to 2.4835 GHz
5.725 to 5.850 GHz |
O3 Pro Signal Effective Distance | SRRC: 5 km
MIC/KCC/CE: 4 km FCC: 7 km (aircraft altitude at 2.5 m in an unobstructed environment with no interference) |
Wi-Fi Protocol | WIFI 6 |
Wi-Fi Operating Frequency[6] | 2.4000 to 2.4835 GHz
5.150 to 5.250 GHz 5.725 to 5.850 GHz |
Bluetooth Protocol | Bluetooth 5.1 |
Bluetooth Operating Frequency | 2.4000-2.4835 GHz |
Location | GPS + Galileo + BeiDou |
Display Screens | 7.02-inch touch LCD with 1920*1200 resolution and 1200cd/m brightness2 |
Supported Aircraft | AGRAS T40, AGRAS T20P |
Operating temperature | -20°C to 50°C (-4°F to 122°F) |
Storage Temperature Range | -30°C to 45°C (within one month)
-30°C to 35°C (between one month and three months) -30°C to 30°C (between three months and one year) |
Charging Temperature | 5° to 40°C (41° to 104°F) |
Internal Battery Life | 3.3 hours |
External Battery Life | 2.7 hours |
Charging Type | Use a USB-C charger with a maximum rated power and voltage of 65 W and 20 V. The DJI Portable Charger is recommended. |
Charging Time | Use a USB-C charger with a maximum rated power and voltage of 65 W and 20 V. The DJI Portable Charger is recommended.
Two hours for both internal and internal plus external batteries (to use the official charging method when the aircraft is off) |
T40 Intelligent Flight Battery |
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Model | BAX601-30000mAh-52.22V |
Weight | Approx. 12 kg |
Capacity | 30000 mAh |
Voltage | 52.22 V |
D12000iE Multifunctional Inverter Generator |
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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 [7]. |
Battery Charging Time | To fully charge one battery (T40 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 [8] | 500 ml/kWh |
Engine Oil Model | SJ 10W-40 |
Definition |
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[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] Hovering time measured at sea level with a wind speed lower than 3 m/s and ambient temperature of 25°C, when the battery power fell from 100% to 0%. The data is for reference only. The actual environment may differ from the testing environment. The figure listed is for reference only. [3] The spray width of the spraying system depends on the operating scenario. [4] The spread width of the spreading system depends on the operating scenario. [5] The effective sensing range varies depending on the material, position, shape, and other properties of the obstacle. [6] In some countries, the 5.1 and 5.8GHz frequencies are prohibited, or the 5.1GHz frequency is only allowed for indoor use. Please refer to local laws and regulations. [7] The actual power and voltage may vary according to local regulations [8] Measured using RON 92 gasoline at near sea level with an ambient temperature of 25°C, while charging at 9 kW. |
Footnotes
[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 core modules include: the avionics module, radio frequency module, breakout board, power distribution board, Electronic Speed Controller, Magnetic Drive Impeller Pump, Dual Atomized Centrifugal Sprinkler, Active Phased Array Omnidirectional/Backward and Downward Radar, Binocular Vision System, UHD FPV camera, and LED supplement light. The IPX6K rating is not permanent and may reduce over time after long-term use due to aging and wear.
[3] When charging at 9 kW, an EFI generator consumes 15% less fuel compared to a carburetor generator.
[4] Data was subject to the operating environment and parameters. T40 flight parameters: consumption rate 15 L/ha, spray width 11 m, flight speed 7 m/s, flight altitude 3 m
[5] Data was subject to the operating environment and parameters. T40 flight parameters: consumption rate 75 L/ha, spray width 4 m, flight speed 3 m/s, flight altitude 2 m
[6] Data was measured with urea and subject to the operating environment and parameters. Actual data may vary in operation. T40 flight parameters: consumption rate 149 kg/ha, spread width 7 m, flight speed 7 m/s, flight altitude 3 m, spreading disc rotation speed 1,000 rpm. The area is free of obstructions and in a regular terrain shape. The fertilizers are prepared in advance and can be loaded quickly.
[7] Urea, seeds, and feed have small bulk density. The volume of their particles weighing 50 kg will exceed 50 L.
[8] The effective sensing range varies depending on the material, position, shape, and other properties of the obstacle. Pilots are responsible for flight safety at all times. The obstacle avoidance system is only an assisting tool.
[9]The Bypass function should preferably be used in environments with sufficient daylight, an incline of less than 20 degrees, small obstacles, and few electrical wires. The function is not recommended for use at night, on a rainy day, or around many electrical wires.
[10] The remote controller’s mapping time, which can be affected by the firmware version, survey type, and other relevant factors.
[11] Charging from 30% to 95%, with the number of batteries chargeable depending on the battery level, idle time, altitude, temperature, and other factors.
[12] Charging from 30% to 95%. Factors impacting charging time: the altitude of the charging station; and the battery cell’s temperature is in the range of 15° to 70°C.
[13] Batteries are covered by warranty for up to 1,500 charging cycles or 12 months, whichever ends first.
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