Add to cart
Sale!

DJI Agras T30 Agriculture Drone

Original price was: ₹2,000,000.00.Current price is: ₹1,399,999.00.

-30%

Only 2 left in stock

Add to Cart

DJI Agras T30 Agriculture Drone
DJI Agras T30 Agriculture Drone 2,000,000.00 Original price was: ₹2,000,000.00.1,399,999.00Current price is: ₹1,399,999.00.
Shop with Confidence
  • 1-Year Warranty
  • 7 Days Easy Returns
  • Low Price Guarantee
  • 100% Genuine Quality Products
  • Free Pan India shipping on all orders!
  • Get After-sale Quick Technical Support
  • Order Yours Before 2.30pm For Same Day Dispatch.

DJI Agras T30 Agriculture Drone

The DJI Agras T30 Agriculture Drone is a powerful tool designed to enhance farming efficiency. With a high-capacity 30-liter tank, it offers extensive spraying capabilities for large-scale operations. The T30 features advanced AI-powered obstacle avoidance and smart planning, ensuring precise and safe application of pesticides and fertilizers. Its efficient crop monitoring system provides real-time data, helping farmers make informed decisions. Built for durability and reliability, the DJI Agras T30 withstands harsh agricultural environments. This drone reduces labor costs, optimizes resource usage, and boosts productivity, making it an essential asset for modern farming. Experience superior performance and increased yields with the DJI Agras T30 Agriculture Drone.

Key Features of the DJI Agras T30 Agriculture Drone

The DJI Agras T30 Agriculture Drone is a cutting-edge tool designed to revolutionize the agricultural industry. It combines advanced technology with user-friendly features to offer unparalleled efficiency and productivity in farming. Here are the key features of the DJI Agras T30 Agriculture Drone that make it an indispensable asset for modern agriculture.

High-Capacity 30-Liter Tank

One of the standout features of the DJI Agras T30 Agriculture Drone is its high-capacity 30-liter tank. This large tank allows for extensive spraying capabilities, making it ideal for large-scale farming operations. With this capacity, farmers can cover more ground in less time, reducing the frequency of refills and increasing overall efficiency.

Advanced Spraying System: The T30 is equipped with an advanced spraying system that ensures high-precision application of pesticides and fertilizers. Its 16-nozzle setup and adjustable spraying angles provide uniform coverage, ensuring that every part of the field receives the right amount of treatment. This precision helps in reducing waste and optimizing the use of agricultural inputs.

AI-Powered Obstacle Avoidance: Safety and efficiency are critical in agricultural operations, and the DJI Agras T30 Agriculture Drone addresses this with its AI-powered obstacle avoidance system. This advanced feature allows the drone to detect and navigate around obstacles autonomously, preventing collisions and ensuring smooth operation even in complex environments. This capability enhances both the safety and reliability of the drone.

Smart Planning and Autonomous Flight: The T30 offers intelligent planning features that allow farmers to pre-plan their routes and spraying patterns. This smart planning capability ensures that the drone follows an optimized path, covering the maximum area with minimal overlap. The autonomous flight feature means the drone can execute these plans with minimal human intervention, freeing up time for farmers to focus on other tasks.

Efficient Crop Monitoring: Beyond spraying, the DJI Agras T30 Agriculture Drone excels in crop monitoring. It is equipped with advanced sensors and imaging technology that provide real-time data on crop health, growth stages, and potential issues such as pest infestations or nutrient deficiencies. This real-time monitoring helps farmers make informed decisions, improving crop management and yield.

Durability and Reliability: Built with high-quality materials, the DJI Agras T30 Agriculture Drone is designed to withstand the harsh conditions often found in agricultural environments. Its robust construction ensures long-term durability and reliability, reducing the need for frequent maintenance and repairs. This durability makes it a cost-effective investment for farmers.

User-Friendly Interface: Despite its advanced features, the T30 is designed with a user-friendly interface. Farmers can control and monitor the drone using a dedicated app that provides real-time feedback and status updates. The intuitive controls and clear display make it accessible even for users with limited technical knowledge, ensuring ease of use.

Cost-Effective and Labor-Saving: The DJI Agras T30 Agriculture Drone is a cost-effective solution for modern farming. By automating spraying and monitoring tasks, it significantly reduces the need for manual labor, cutting down on labor costs. Its efficient use of resources also means savings on pesticides, fertilizers, and water, contributing to overall cost reduction.

High-Efficiency Operations: The combination of a high-capacity tank, advanced spraying system, and autonomous flight capabilities ensures high-efficiency operations. The DJI Agras T30 Agriculture Drone can cover large areas quickly and accurately, optimizing the use of time and resources. This efficiency translates into higher productivity and better crop yields.

DJI Agras T30 Agriculture Drone

Specifications

Feature

  • 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 multiple drones

  • √ (Single remote control for up to three drones)
  • D-RTK technology

  • Top-view radar module

  • Flight laser function

  • Intelligent endurance/return function

  • Intelligent supply-point prediction

  • Front-view FPV

  • Rear-view FPV

  • Coordinated turning function

  • Branch targeting technology

Drone parameters

  • 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 Galileo E1/E5
    GNSS: GPS L1, GLONASS F1, and Galileo 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 flight speed

  • 7 m/s
  • Maximum level speed

  • 10 m/s (with good GNSS signal)
  • Maximum tolerable wind speed

  • 6 m/s
  • Maximum flight 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℃

Chassis parameters

  • 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)

Power system – Motor

  • Stator size

  • 100×18 mm
  • KV value

  • 77 rpm/V
  • Maximum pull

  • 18.7 kg/rotor
  • Maximum power

  • 3,600 W/rotor
  • Weight

  • 756 g

Power system – Propellers

  • Diameter × pitch

  • 38×20 inch
  • Weight (with a single blade)

  • 106 g

Power system – ESC

  • Maximum operating current (continuous)

  • 60 A
  • Maximum operating voltage

  • 60.9 V (14S LiPo)

FPV cameras

  • View angle (FOV)

  • Horizontal: 129°, vertical:82°
  • Resolution

  • 1,280×720 15-30 fps

FPV searchlights

  • Maximum light intensity

  • 13.2 lux @ 5-meter direct light

Spraying system – Operation tank

  • Operation tank volume

  • 30L at full load
  • Operating load

  • 30 kg at full load

Spraying system – Nozzles

  • 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)

Spraying system – Water pump

  • Water pump model

  • Plunger pump
  • Operating voltage

  • 60 V
  • Maximum flow

  • 4 L/min ×1

Spraying system – Flowmeter

  • Flow measurement range

  • 0.25 – 20 L/min
  • Flow measurement error

  • < ±2%
  • Measurable liquid

  • Conductivity > 50 μS/cm, typical liquids: Tap water or aqueous organic or inorganic pesticides

Omnidirectional obstacle avoidance radar

  • 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

Top-view radar

  • Model

  • RD2414U
  • Operating frequency

  • SRRC/NCC/FCC:24.05 – 24.25 GHz
    MIC/KCC/CE:24.05 – 24.25 GHz
  • Overhead obstacle avoidance

  • Perceivable distance: 1.5-10 m
    View angle (FOV): 80°
    Conditions of use: During take-off, landing, and climbing when the relative distance between the drone and the object above is greater than 1.5 m
    Safety distance: 2 m (the distance between the highest point on the top of the drone and the obstacle after the drone brakes and hovers stably)
    Obstacle avoidance direction: Above the drone
  • Water-resistance rating

  • IP67
  • Equivalent isotropic radiated power (EIRP)

  • SRRC:< 13 dBm; NCC/MIC/KCC/CE/
    FCC:< 20 dBm
  • Operating power consumption

  • 4 W

Battery

  • Model

  • BAX501-29,000mAh-51.8V
  • Weight

  • Approximately 10.1 kg
  • Discharge rate

  • 11.5C
  • Water-resistance rating

  • IP54 with board-level potting protection
  • Capacity

  • 29,000 mAh
  • Voltage

  • 51.8 V

Remote control

  • Model

  • RM500-ENT
  • Operating frequency of the Ocusync Industry Edition

  • 2.4000 – 2.4835 GHz
    5.725 – 5.850 GHz
  • Effective signal range at the Ocusync Industry Edition operating frequency (without interference and blockage)

  • SRRC: 5 km; MIC/KCC/CE: 4 km; FCC: 7 km
    (measured when the operating height of the drone is 2.5 m)
  • EIRP of the operating frequency of the Ocusync Industry Edition

  • 2.4 GHz
    SRRC/CE/MIC/KCC: 18.5 dBm;
    FCC: 29.5 dBm;
    5.8 GHz
    SRRC: 20.5 dBm;
    FCC: 28.5 dBm
    CE:12.5 dBm
  • Wi-Fi protocols

  • Wi-Fi Direct, Wireless Display, and 802.11a/g/n/ac
    Supports 2 × 2 MIMO Wi-Fi
  • Wi-Fi operating frequency

  • 2.4000 – 2.4835 GHz
    5.150 – 5.250 GHz
    5.725 – 5.850 GHz
  • Wi-Fi EIRP

  • 2.4 GHz
    SRRC/CE: 18.5 dBm; FCC/MIC/KCC:20.5 dBm;
    5.2 GHz
    SRRC/FCC/CE/MIC: 14 dBm; KCC: 10 dBm;
    5.8 GHz
    SRRC/FCC: 18 dBm; CE/KCC: 12 dBm;
  • Bluetooth protocol

  • Bluetooth 4.2
  • Bluetooth operating frequency

  • 2.4000 – 2.4835 GHz
  • Bluetooth EIRP

  • SRRC/MIC/FCC/CE/KCC:6.5 dBm
  • Positioning

  • GPS+GLONASS dual mode
  • Display screen

  • 5.5-inch screen with a resolution of 1920×1080, brightness of 1,000 cd/m², and Android OS
  • Operating memory (RAM)

  • 4GB LPDDR4
  • Storage space (ROM)

  • A microSD card with 32 GB and extensible storage space for up to 128 GB, transfer speed rated as UHS-I Speed Grade 3
  • HDMI

  • HDMI 1.4
  • Supported drones

  • T30 and T10 agricultural drones
  • Operating power consumption

  • 18 W
  • Operating ambient temperature

  • -10℃ to 40℃
  • Storage ambient temperature

  • -30℃ to 60℃ (within 1 month)
    -30℃ to 45℃ (more than 1 month and less than 3 months)
    -30℃ to 35℃ (more than 3 months and less than 6 months)
    -30℃ to 25℃ (more than 6 months)
    (with built-in batteries charged to 40% to 60%)
  • Charging ambient temperature

  • 5℃ to 40℃

Built-in batteries of the remote control

  • Built-in batteries

  • 18650 lithium-ion battery (5,000 mAh at 7.2V)
  • Battery life

  • 2 hours
  • Charging method

  • Use a standard 12V/2A USB fast charger
  • Charging time

  • 2.5 hours (use the 12V/2A USB fast charger when the remote control is powered off)
  • Power supply current/voltage of the remote control USB-A port

  • 5 V / 1.5 A

External smart battery of the remote control

  • Model

  • WB37-4,920mAh-7.6V
  • Battery type

  • 2S LiPo
  • Capacity

  • 4,920 mAh
  • Voltage

  • 7.6 V
  • Capacity

  • 37.39 Wh
  • Charging ambient temperature

  • 5℃ to 40℃
  • Battery life

  • 2 hours

Charging assistant of the remote control external smart battery

  • Model

  • WCH2
  • Input voltage

  • 17.3 – 26.2 V
  • Output voltage and current

  • 8.7V and 6A
  • Operating ambient temperature

  • 5℃ to 40℃

Power adapter of the external smart battery charging assistant

  • Model

  • A14-057N1A
  • Input voltage

  • 100 – 240V and 50/60 Hz
  • Output voltage

  • 17.4 V
  • Rated power

  • 57 W

T30 Spreading System 3.0

  • Spreading system weight

  • 3.9kg
  • Maximum opening area

  • 44.6 cm²
  • Applicable materials

  • Solid dry particles with a diameter of 0.5 to 5 mm
  • Spreading tank volume

  • 40L
  • Maximum load of the spreading tank

  • 35kg
  • Water-resistance rating

  • IP67
  • Input voltage

  • Power: 60V
    Control:15V
  • Maximum power

  • 60V@250W
    15V@50W
  • Recommended operating ambient temperature

  • 0℃ to 40℃
  • Dimensions

  • 560×435×320mm
  • Maximum rotation speed

  • 1,300 RPM

T30 smart charging manager

  • Dimensions

  • 300×280×230 mm
  • Total weight

  • 11.5 kg
  • Input voltage

  • 100-264 Vac
  • Output voltage

  • 40-60 V
  • Rated power

  • 7,200
  • Charging current

  • 120 A
  • Charging time

  • Fully charges a battery in 9 to 12 minutes
  • Charging voltage accuracy

  • +/-0.1 V
  • Charging current accuracy

  • +/-1 A
  • Output channel quantity

  • 2
  • Protection functions

  • Over-temperature, over-voltage, under-voltage, short-circuit, and fan stall protection
  • Charging ambient temperature

  • -20℃ to 45℃
  • Charging safety

  • AC wire protection, power wire protection, and charge connector protection
 

What is the tank capacity of the DJI Agras T30 Agriculture Drone? The DJI Agras T30 Agriculture Drone features a high-capacity 30-liter tank, allowing for extensive spraying capabilities and reducing the frequency of refills, which is ideal for large-scale farming operations.

How does the DJI Agras T30 ensure precision spraying? The DJI Agras T30 Agriculture Drone is equipped with an advanced 16-nozzle spraying system and adjustable spraying angles. This setup ensures uniform coverage, reducing waste and optimizing the use of pesticides and fertilizers.

What safety features does the DJI Agras T30 have? The DJI Agras T30 Agriculture Drone includes AI-powered obstacle avoidance technology. This feature allows the drone to detect and navigate around obstacles autonomously, preventing collisions and ensuring smooth and safe operation.

Can the DJI Agras T30 operate autonomously? Yes, the T30 offers smart planning and autonomous flight features. Farmers can pre-plan routes and spraying patterns, and the drone will execute these plans accurately with minimal human intervention, optimizing coverage and efficiency.

How does the DJI Agras T30 help with crop monitoring? The DJI Agras T30 Agriculture Drone is equipped with advanced sensors and imaging technology that provide real-time data on crop health, growth stages, and potential issues. This information helps farmers make informed decisions about crop management.

Is the DJI Agras T30 durable and reliable? Yes, the DJI Agras T30 Agriculture Drone is built with high-quality materials designed to withstand harsh agricultural environments. Its robust construction ensures long-term durability and reliability, reducing the need for frequent maintenance.

How user-friendly is the DJI Agras T30? The T30 is designed with a user-friendly interface. Farmers can control and monitor the drone using a dedicated app, which provides real-time feedback and status updates. The intuitive controls and clear display make it accessible even for users with limited technical knowledge.

How does the DJI Agras T30 save on labor costs? By automating spraying and monitoring tasks, the DJI Agras T30 Agriculture Drone significantly reduces the need for manual labor, cutting down on labor costs. Its efficient use of resources also saves on pesticides, fertilizers, and water.

What makes the DJI Agras T30 a cost-effective solution for farmers? The DJI Agras T30 Agriculture Drone is cost-effective due to its automation of tasks, reducing labor costs, and its efficient use of resources, leading to savings on agricultural inputs. Its durability and reliability also contribute to its cost-effectiveness over time.

How efficient is the DJI Agras T30 in large-scale operations? With its high-capacity tank, advanced spraying system, and autonomous flight capabilities, the DJI Agras T30 Agriculture Drone is highly efficient for large-scale operations. It can cover large areas quickly and accurately, optimizing time and resources for better productivity and higher crop yields.