With a 30 liter spraying tank, the DJI Agras T30 takes aerial spraying efficiency to new heights. A revolutionary transforming body enables more effective spraying, especially for fruit trees. Using DJI digital agriculture solutions, the T30 helps reduce fertilizer use and increase yield with effective, data-driven best practices.
30L Spray Tank
Spherical Radar System
IP67 Water and Dust Resistance
Dual FPV Cameras for Monitoring
High Precision Operation
Smart Agriculture Cloud Platform
Branch-Targeting Technology
for Thorough Penetration
With revolutionary branch-targeting technology and adjustable arms, the Agras T30 penetrates thick canopies with oblique spraying, ensuring an even application of liquid pesticides and doubling the number of droplets. [1] With the help of the Smart Agriculture Cloud Platform and cloud-based mapping, users can manage a 3D digital orchard, making it easy to get started with digital agriculture.
16 spray nozzles provide extensive coverage with even distribution, strong penetration, and exceptional drift prevention.
A 16-nozzle layout further improves droplet penetration. Eight sets of solenoid valves enable independent variable frequency control and spraying in turn. The horizontally opposed six-cylinder double plunger pump design provides strong spraying power and a high flow rate of up to 8 liters per minute.
40 Acres per Hour
Equipped with a large 30kg spray tank, the Agras T30 has a spray width of 9 meters, and field spraying efficiency of 40 acres/hour, 33.3% more than its previous generation.
Eliminate Blind Spots with a Spherical Radar System
The spherical radar system perceives obstacles and surroundings in all environments, weather conditions, and viewing angles, regardless of dust and light interference. Automatic obstacle avoidance and adaptive flight functions help ensure safety during operation.
Dual FPV Cameras for Improved Awareness
Equipped with dual FPV cameras, the Agras T30 provides clear front and rear views and lets you check flight status without needing to turn the aircraft mid-flight. And a bright searchlight doubles the aircraft's night vision capabilities, creating more nighttime operation possibilities.
Designed for Long-Term Service
The Agras T30 control module has a fully enclosed structure for added durability. All critical components have three layers of protection and are IP67 rated. Ideal for long term use of pesticides and fertilizers, and to resist dust and corrosion.
Flexible folding for convenient transportation
The Agras T30 can be folded by 80%, making it easier to transport. This folding mechanism uses quick-snap locking, redundancies, and an in-app alert to help ensure safe operation.
Autonomous Operation
with Optimal Route Planning
The new intelligent route mode independently plans the best route for each operation. A gauge indicates the remaining liquid payload amount and estimated time until refill in real-time, letting operators strike the perfect balance between payload and battery life. The aircraft also supports automatic edge sweeping for extensive spray coverage and easier aerial operation.
Ultrabright Screen
Ultimate Control
An updated remote controller supports stable image transmission from up to 5 km away, 67% more than the previous generation. A bright 5.5-inch screen delivers clear visuals , even in harsh lighting conditions. For increased productivity, one remote controller can operate multiple drones at once. The standard RTK high-precision positioning module implements centimeter-level operation planning. Additional enhancements include stronger signaling, anti-interference, and operational stability. The new DJI Agriculture app provides a smooth user experience and more intuitive operation.
Two Batteries + Charger for Continuous Operation
1,000 cycles for 4,942 acres
With fewer supporting components needed, the Agras T30 is easier to transport. A newly designed intelligent battery is covered by warranty for 1,000 charges and 4,942 acres of flight; this ultra-long service life significantly reduces operating costs. The charging station and smart charging hub can fully charge a battery in 10 minutes, allowing for continuous operation with just two batteries and one charger. The standard safety box helps ensure battery safety and easy equipment storage.
DJI Agras T30 Intelligent Flight Battery
The 29,000mAh Intelligent Flight Battery has a product guarantee of 1,000 cycles. [4] It supports instant charging without the need for cooldown, circuit board-level potting protection, and resistance from water and corrosion.
DJI Agras T30 Intelligent Battery Station
The T30 Battery Station provides 7,200 watts of charging power and can charge a battery in 10 minutes. It also has a backup power system and supports dual-channel alternated charging with power adaptation and safer operation.
T30 Spreading System 3.0
Large-capacity, Washable, and Corrosion-Resistant
This updated spreading system has a capacity of up to 40L a spreading width of up to 7 meters, and an hourly spreading capacity of 1 ton. This system also supports real-time weight monitoring and has an anti-rotation sensor, allowing more accurate refill alerts. The T30's overall water-resistance rating of IP67 rating makes it washable and corrosion-resistant ideal for spraying of fertilizers, seeds, and feed. When used with digital agriculture solutions, the Agras T30 implements variable spreading, reducing fertilizer use while increasing yield.
Cloud-Based 3D Farming:
Digital Agriculture is Here
With the Smart Agriculture Cloud Platform, users can perform cloud-based mapping of orchard and farmland scenarios to generate smart flightpaths. This platform is equipped with an AI recognition system to patrol fields, identify growth, monitor disease or pests, and monitor agricultural conditions efficiently. Pairing this system with the DJI P4 Multispectral allows users to apply solutions based on specific variables according to an automatically-generated farmland prescription map.
有关更多信息 DJI Agras T30
规格
Hourly work efficiency | 40 acres |
High-precision radar | √ Spherical Omnidirectional Radar System |
Remote control planning accuracy | √ (RTK/GNSS) |
Pipe air exhaust | √ One button Air Discharge |
3D operation planning by the AI smart engine | √ |
High-precision flowmeter | √ (Dual-channel electromagnetic flowmeter with an error of ±2%) |
Level gauge | Continuous level gauge (with real-time pesticide load detection and Intelligent supply-point prediction) |
Maximum spray flow | 7.2L/min (with the XR11001 nozzle) 8L/min (with the XR110015 optional nozzle) |
Pesticide tank installation method | Fixed pesticide tank |
Battery installation method | Removable batteries |
Single remote control for mtrtiple drones | √ (Single remote control for up to three drones) |
D-RTK technology | √ |
Top-view radar module | √ |
Ftdght laser function | √ |
Intelligent endurance/return function | √ |
Intelligent supply-point prediction | √ |
Front-view FPV | √ |
Rear-view FPV | √ |
Coordinated turning function | √ |
Branch targeting technology | √ |
Total weight (without batteries) | 26.4 kg |
Maximum take-off weight | 78 kg (near sea level) |
Maximum thrust-to-weight ratio | 1.70 @ takeoff weight of 66.5 kg |
Hovering precision (with good GNSS signal) | With D-RTK enabled: ±10 cm (horizontal) and ±10 cm (vertical) With D-RTK disabled: ±0.6m (horizontal) and ±0.3m (vertical) (with the radar function enabled: ±0.1m) |
RTK and GNSS frequency bands | RTK: GPS L1/L2, GLONASS F1/F2, BeiDou B1/B2, and Gatdleo E1/E5 GNSS: GPS L1, GLONASS F1, and Gatdleo E1 |
Maximum power consumption | 11,000 W |
Hovering power consumption | 10,000 W (@ takeoff weight of 66.5 kg) |
Hovering endurance | 20.5min (@29,000 mAh & takeoff weight of 36.5 kg) 7.8min (@29,000 mAh & takeoff weight of 66.5 kg) |
Maximum pitch angle | 15° |
Maximum operating ftdght speed | 7 m/s |
Maximum level speed | 10 m/s (with good GNSS signal) |
Maximum tolerable wind speed | 6 m/s |
Maximum ftdght altitude | 4,500m *Reduce the pesticide load by 12% for each increase of 1,000 meters in altitude. |
Recommended operating ambient humidity | < 93% |
Recommended operating ambient temperature | 0℃ to 45℃ |
Maximum rotor distance | 2,145 mm |
Dimensions | 2,858 mm × 2,685 mm × 790 mm (with arms and blades unfolded) 2,030 mm × 1,866 mm × 790 mm (with arms unfolded and blades folded) 1,170 mm × 670 mm × 857 mm (with arms folded) |
Stator size | 100×18 mm |
KV value | 77 rpm/V |
Maximum ptrl | 18.7 kg/rotor |
Maximum power | 3,600 W/rotor |
Weight | 756 g |
Diameter × pitch | 38×20 inch |
Weight (with a single blade) | 106 g |
Maximum operating current (continuous) | 60 A |
Maximum operating voltage | 60.9 V (14S tdPo) |
View angle (FOV) | Horizontal: 129°, vertical:82° |
Resolution | 1,280×720 15-30 fps |
Maximum tdght intensity | 13.2 lux @ 5-meter direct tdght |
Operation tank volume | 30L at ftrl load |
Operating load | 30 kg at ftrl load |
Nozzle model | SX11001VS (standard) SX110015VS (optional) Fruit tree drones: TX-VK04 (optional) |
Nozzle quantity | 16 |
Maximum spray flow | SX11001VS: 7.2L/min SX110015VS: 8L/min TX-VK4:3.6 L/min |
Atomized particle size | SX11001VS : 130 - 250 μm SX110015VS : 170 - 265 μm TX-VK4: 110 - 135 μm (depending on the actual operating environment, spray flow, and other factors) |
Maximum effective spray width | 4-9 m (with 12 nozzles and a distance of 1.5 to 3 meters to crops) |
Water pump model | Plunger pump |
Operating voltage | 60 V |
Maximum flow | 4 L/min ×1 |
Flow measurement range | 0.25 - 20 L/min |
Flow measurement error | < ±2% |
Measurable tdquid | Conductivity > 50 μS/cm, typical tdquids: Tap water or aqueous organic or inorganic pesticides |
Model | RD2424R |
Operating frequency | SRRC/NCC/FCC: 24.05 - 24.25 GHz MIC/KCC/CE: 24.05 - 24.25 GHz |
Operating power consumption | 12 W |
Equivalent isotropic radiated power (EIRP) | SRRC: < 13 dBm; NCC/MIC/KCC/CE/FCC:< 20 dBm |
Height maintenance and terrain adaptation | Height measurement range: 1-30 m Height-maintenance range: 1.5-15 m Maximum slope in mountain mode:35° |
Obstacle avoidance system | Perceivable distance: 1.5-30 m View angle (FOV): Horizontal: 360°, vertical: ±15° Conditions of use: The relative altitude of the drone must be greater than 1.5 m and the speed less than 7 m/s Safety distance: 2.5 m (the distance between the tip of the propeller and the obstacle after the drone decelerates to a hover) Obstacle avoidance direction: Horizontally omnidirectional obstacle avoidance |
Water-resistance rating | IP67 |