DJI Agras T30 & DJI Phantom 4 RTK Combo

Contact for Pricing
SKU: T30_COMBO_P4RTK_B2

The Agras T30 paired with a Phantom 4 RTK. Deploy the latest precision agricultural technology on your farm. The performance and efficiency of spraying operations have never been better.


FREE SHIPPING ON ALL ORDERS OVER $300

All orders placed before 2pm will be delivered the next day on overnight track and trace courier. Larger items will be sent on a two day service to the South Island. Please note rural addresses (RD) can take 1-3 days longer.


Features 

On delivery each individual craft has been set up, tested and certified in compliance with CAA guidelines by our specialist technicians. As well on handover one of our commercial solutions team will spend half a day with you going through craft setup, maintenance, operations and best practice so you are confident with your new machine.

 

The Agras T30 is DJI’s next-generation aircraft, boasting a revolutionary transforming structure and a max payload of up to 40 kg. Using DJI’s digital agriculture solutions, the performance and efficiency of crop protection operations can be greatly enhanced and improved. The updated Route Operation mode includes Connection Routing, which enables the aircraft to automatically fly to a task route and avoid obstacles that have been marked in field planning. The new Smart Supply Reminder calculates the remaining liquid amount to help users manage spraying operations.

The aircraft comes equipped with the Spherical Radar System, a pioneering new system for the agriculture industry. Consisting of the Omnidirectional Digital Radar and Upward Radar, the system provides functions such as terrain following, obstacle sensing, and obstacle circumventing. With the forward and backward FPV cameras and bright spotlights, the system comprehensively ensures operational safety day and night in different weather.

 

Spray Tank Volume

Max Takeoff Weight

Operating Payload

Protection Rating

Max Flying Speed

Max Wind Resistance

30 L  66.5 kg 30 kg IP67 10 m/s 8 m/s

 

 

 

Thanks to the innovative new plunger pumps and the 16 sprinklers, the spraying system offers improved spray width, rate, distribution, and efficiency. The 2-channel electromagnetic flow meter and continuous liquid level gauge make measurements more accurate than ever. To spray orchards, users can purchase the optional orchard spray package to transform the aircraft into Orchard Configuration. When spraying orchards, branch-targeting technology can be used for precise spraying with the help of the all-new Spherical Radar System and DJI Agras Cloud.
 
 
The aircraft has a protection rating of IP67 (IEC 60529) and the core components boast three layers of protection, making the T30 corrosion-resistant, dustproof, and waterproof so that it can be washed directly with water.
 
The Smart Controller Enterprise uses DJI OcuSync Enterprise transmission technology, has a max transmission distance of up to 7 km, and supports Wi-Fi and Bluetooth. The remote controller has a 5.5-inch bright, dedicated screen and comes with the updated DJI Agras app built-in, delivering a smooth and easy-to-use experience. Operations can be planned to centimeter-level precision when the RTK dongle is connected to the remote controller. The Multi-Aircraft Control mode of the remote controller can be used to coordinate the operation of multiple aircraft at the same time, enabling pilots to work efficiently. Both the built-in battery and external battery can be used to supply power to the remote controller. The remote controller has a working time of up to 4 hours, making it ideal for long and high-intensity operations.
 
 
Feature Highlights
 
The T30 features a brand-new quadrilateral folding structure design for quick folding and easy storage. Folding detection sensors built into the frame arms enable the aircraft to perform a folding mechanism self-check ensuring the arms are properly unfolded. The aircraft supports centimeter-level positioning when used with the onboard D-RTKTM while the dual-antenna technology provides strong resistance against magnetic interference. Users have clear views of the front and rear of the aircraft thanks to the dual FPV cameras.
The updated Route operation mode includes Connection Routing. In Connection Routing, the aircraft will automatically return to a task route. Users can mark obstacles outside the task area during field planning for the aircraft to avoid and also add connection points for the aircraft to travel through along the connection route back to the task route. Operations are further automated by the Smart Supply Reminder, which calculates the remaining liquid amount in real time and displays the refill point on the map.
 
 

Agras & CAA Compliance

When we supply you with an Agras each individual craft has been set up, tested and certified in compliance with CAA guideline by our specialist technicians.

On handover of your new spray drone one of our commercial solutions team will spend half a day with you going through craft setup, maintenance, operations and best practice so you are confident with your new machine. To operate a spraying drone in New Zealand you will require: 

CAA Part 102 unmanned aircraft operator certificate (102 Exposition required showing that you have identified hazards and risks of your operation, and how you intend to mitigate these risks).
CAA Part 102 Pilot certificate.
Pilot Chemical Rating certificate. 


Approximate costs:
102 Exposition: $3,600 + GST
102 Pilot Certificate: $1,200 + GST
Pilot Chemical Rating $3,750 + GST 

For further info on what is required for 102 certificate, exposition and agriculture rating, I would recommend contacting Heather Andrews from ASMS (https://www.asms.co.nz). heather@asms.co.nz or 021 061 4655.

For information on pilot chemical ratings, we recommend contacting:

Adroit Solutions www.adroitsolutions.co.nz at info@adroitsolutions.co.nz or Educhem at www.educhem.co.nz at info@educhem.co.nz

 

DJI Phantom 4 RTK

 

 

Flight Time

Control Range

Horizontal RTK Accuracy

Vertical RTK Accuracy

Video Transmission

Obstacle Sensing

30 Min 7 km 1 cm + 1 ppm 1.5 cm + 1 ppm Ocusync 5 directions

 

 

DJI has rethought its drone technology from the ground-up, revolutionising its systems to achieve a new standard for drone accuracy - resulting in the creation of the Phantom 4 RTK.

The system was designed by looking at the requirements from the drone mapping and surveying market and building what they wished for - a small drone solution with a high-resolution camera and the ability to capture centimeter-accurate RTK data.

 

Real Time Kinematics Basics

Real-time Kinematic or RTK is an advanced satellite positioning system utilizing ground station as secondary position reference to delivering highly precise centimetre-level accuracy data.

Combine and contrast position data captured from virtual or physical base station, the Phantom 4 RTK’s camera would geotag the centimetre-level precision data into the image.

Radial and tangential lens distortions were measured for every Phantom 4 RTK’s camera to have its unique distortion parameters and write these distortion parameters into the image for post-process calibration.

 

Centimetre Level Positioning System

The integrated RTK module provides accurate positioning data even with no GCPs.

Stores the satellite observation data for PPK (Post-Process Kinematic) position post-process.

Compatible with the D-RTK 2 Mobile Station, NTRIP (Network Transport of RTCMv3 via Internet Protocol) and third-party RTK stations (Only PPK is available when the ground station is without the NTRIP service.)

 

Integrated RTK Module

A new RTK module is integrated directly into the Phantom 4 RTK, providing real-time, centimeter-level positioning data for improved absolute accuracy on image metadata.

Sitting just beneath the RTK receiver is a redundant GNSS module, installed to maintain flight stability in the signal-poor regions such as dense cities.

Combining both GNSS and RTK modules, the Phantom 4 RTK can optimise flight safety while ensuring the most precise data captured for technical surveying, mapping, and inspection workflows.

 

Ocusync 2.0

Enjoy stable and reliable HD live video transmission at distances of up to 4.3 miles*, the Phantom 4 RTK is great for mapping larger scale sites.

Note: Unobstructed, free of interference, when FCC compliant. Maximum flight range specification is a proxy for radio link strength and resilience. Always fly your drone within visual line of sight unless otherwise permitted.

 

Precise Imaging System

1-inch CMOS sensor, 20M effective pixels, 2.7 cm GSD (Ground Sample Distance) at 100 m flight altitude.
Radial and tangential lens distortions measured for post-processing image calibration.
The camera is synchronized with the RTK module, delivers millisecond-level imaging deviation.
Phantom 4 RTK’s camera would capture and store the phase compensation data for the post-processing position calibration
The mechanical shutter on Phantom 4 RTK’s camera eliminates rolling shutter distortions which can occur when flying at high speed, allows high-precision shots to capture without the wobble distortion.

 

Timesync

To take full advantage of the Phantom 4 RTK's positioning modules, the new TimeSync system was created to align the flight controller, camera and RTK module continually.

Additionally, TimeSync ensures each photo uses the most accurate metadata and fixes the positioning data to the centre of the CMOS - optimizing the results from the photogrammetric methods and letting the image achieve centimetre-level positioning data.

 

Distortion Correction

Enable distortion correction would calibrate the optical distortion caused by the camera lens, real-time calibrated images would be captured and stored in Micro-SD card.

Disable the distortion correction would have Phantom 4 RTK's camera capture the unedited image with the fisheye effect. The lens distortion parameters were all pre-measured. These parameters would all be saved in "DewarpData" under the XMP field for every image taken.

You can also input these parameters manually to calibrate the image distortion with the third-party software. (The location of the principal point should first meet the third-party software. (The position of the primary point should first meet the third-party software's requirements to proceed. Match the imager origin point of the distortion parameter given by XMP with the principal point.) Distortion calibration using post-processing software would have better accuracy compared to the built-in distortion correction feature in the GS RTK app.

For more information, please refer to the following link: Distortion Correction

 

Remote Controller

Built-in with a 5.5", 1000 cd/m² high-brightness LCD display

Interchangeable battery and antennas design

Phantom 4 RTK's remote controller has a built-in secondary battery to ensure the system would continuously operate while hot swapping external batteries

Latest OcuSync transmission system, transmission range up to 4.3 miles (unobstructed, free of interference)

The remote controller's Multi-Aircraft Control Mode can be used to coordinate the operation of up to five aircraft at the same time, enabling pilots to work efficiently

Supports 4G, Wi-Fi, and OcuSync 2.0 connectivity

 

D-RTK 2 High-accuracy Mobile Station 

Supports four satellite navigation systems: GPS, GLONASS, BeiDou, and Galileo

Supports both Ocusync 2.0 and 4G connectivity

Supported for multiple DJI aircraft models'

Still Detection: The RTK station should always maintain still during the operation. However, if the station has been moved or tilted accidentally, its Still Detection feature would automatically detect its changed stationary state and report the captured data as the unreliable result.

Call our commercial team at 0800787623 for more details

Product Specifications

AIRFRAME

Max Diagonal Wheelbase: 2145 mm
Dimensions:
2858×2685×790 mm (Arms and propellers unfolded)
2030×1866×790 mm (Arms unfolded and propellers folded)
1170×670×857 mm (Arms and propellers folded)
 

PROPULSION SYSTEM

Motors
Max Power: 3600 W/rotor
ESCs
Max Working Current (Continuous): 60 A
Foldable Propellers (R3820)
Diameter × Pitch: 38×20 in

SPRAYING SYSTEM

Spray Tank
Volume:
Fully loaded: 30 L
Operating Payload: Fully loaded: 30 kg

Nozzles
Model:
XR11001VS (standard), XR110015VS (optional, purchase separately), TX-VK4/ZX-VK4 (optional for Orchard Configuration, purchase separately)
Quantity: 16
Max Spray Rate: XR11001VS: 7.2 L/min, XR110015VS: 8 L/min
Spray Width: 4-9 m (12 nozzles, at a height of 1.5-3 m above crops)
Droplet Size: XR11001VS: 130-250 μm, XR110015VS: 170-265 μm (subject to operating environment and spray rate)

Flow Meter
Measurement Range:
0.25-20 L/min
Error: <±2%
Measurable Liquid: Conductivity >50 μS/cm (liquids such as tap water or pesticides that contain water)

OMNIDIRECTIONAL DIGITAL RADAR

Model: RD2424R
Operating Frequency: SRRC/NCC/FCC/MIC/KCC/CE: 24.05-24.25 GHz
Power Consumption: 12 W
Transmission Power (EIRP): SRRC: ≤13 dBm; NCC/MIC/KCC/CE/FCC: ≤20 dBm
Altitude Detection & Terrain Follow:
Altitude detection range: 1-30 m
Stabilization working range: 1.5-15 m
Max slope in Mountain mode: 35°
Obstacle Avoidance:
Obstacle sensing range: 1.5-30 m
FOV: Horizontal: 360°, Vertical: ±15°
Working conditions: flying higher than 1.5 m over the obstacle at a speed lower than 7 m/s
Safety limit distance: 2.5 m (distance between the front of propellers and the obstacle after braking)
Obstacle avoidance direction: omnidirectional obstacle avoidance in the horizontal direction.
IP Rating: IP67

UPWARD RADAR

Model: RD2414U
Operating Frequency: SRRC/NCC/FCC/MIC/KCC/CE: 24.05-24.25 GHz
Power Consumption: 4 W
Transmission Power (EIRP): SRRC: ≤13 dBm; NCC/MIC/KCC/CE/FCC: ≤20 dBm
Obstacle Avoidance:
Obstacle sensing range: 1.5-15 m
FOV: 80°
Working conditions: available during takeoff, landing, and ascending when an obstacle is more than 1.5 m above the aircraft.
Safety limit distance: 2 m (distance between the highest point of the aircraft and the lowest point of the obstacle after braking)
Obstacle avoidance direction: Upward
IP Rating: IP67

FPV CAMERAS

FOV: Horizontal: 129°,Vertical: 82°
Resolution: 1280×720 15-30fps
FPV Spotlights: FOV: 120°,Max brightness: 13.2 lux at 5 m of direct light

FLIGHT PARAMETERS

Operating Frequency:
SRRC/NCC/FCC/CE/MIC/KCC: 2.4000-2.4835 GHz
SRRC/NCC/FCC/CE: 5.725-5.850 GHz[2]
Transmission Power (EIRP):
2.4 GHz
SRRC/CE/MIC/KCC: ≤20 dBm, FCC/NCC: ≤31.5 dBm
5.8 GHz
FCC/SRRC/NCC: ≤29.5 dBm, CE: ≤14 dBm
Total Weight (exc. battery): 26.3 kg
Max Takeoff Weight:
Max takeoff weight for spraying: 66.5 kg (at sea level)
Max takeoff weight for spreading: 78 kg (at sea level)
Hovering Accuracy Range (with strong GNSS signal):
D-RTK enabled: Horizontal: ±10 cm, Vertical: ±10 cm
D-RTK disabled:
Horizontal: ±0.6 m, Vertical: ±0.3 m (Radar module enabled: ±0.1 m)
RTK/GNSS Operating Frequency:
RTK: GPS L1/L2, GLONASS F1/F2, BeiDou B1/B2, Galileo E1/E5[3]
GNSS: GPS L1, GLONASS F1, Galileo E1[3]
Battery: DJI-approved flight battery (BAX501-29000mAh-51.8V)
Max Power Consumption: 13000 W
Hovering Time:
20.5 min (takeoff weight of 36.5 kg with an 29000 mAh battery)
7.8 min (takeoff weight of 66.5 kg with an 29000 mAh battery)
Max Tilt Angle: 15°
Max Operating Speed: 7 m/s
Max Flying Speed: 10 m/s (with strong GNSS signal)
Max Wind Resistance: 8 m/s
Max Service Ceiling Above Sea Level: 4500 m
Recommended Operating Humidity: <93%
Recommended Operating Temperature: 0° to 45° C (32° to 113° F)

REMOTE CONTROLLER

Model: RM500-ENT
Screen: 5.5-in screen, 1920×1080, 1000 cd/m2, Android system
RAM: 4GB
Built-in Battery: 18650 Li-ion (5000 mAh @ 7.2 V)
GNSS: GPS+GLONASS
Power Consumption: 18 W
Operating Temperature: 0° to 45° C (14° to 113° F)
Charging Environment Temperature: 5° to 40° C (41° to 104° F)
Storage Temperature: -30° to 60° C (-22° to 140° F) (stored for no more than one month with a built-in battery power of 40% to 60%)
OcuSync Enterprise
Operating Frequency:

SRRC/NCC/FCC/CE/MIC/KCC: 2.4000-2.4835 GHz
SRRC/NCC/FCC/CE: 5.725-5.850 GHz[2]
Effective Transmission Distance (Unobstructed, free of interference): FCC/NCC: 7 km, SRRC: 5 km, MIC/KCC/CE: 4 km
Transmission Power (EIRP): 
2.4 GHz
SRRC/CE/MIC/KCC: ≤20 dBm, FCC/NCC: ≤30.5 dBm
5.8 GHz
SRRC: ≤21.5 dBm FCC/NCC: ≤29.5 dBm, CE: ≤14 dBm
Wi-Fi
Protocol: 

Wi-Fi Direct, Wi-Fi Display, 802.11a/g/n/ac
Wi-Fi with 2×2 MIMO
Operating Frequency: 
2.4000-2.4835 GHz
5.150-5.250 GHz
5.725-5.850 GHz[2]
Transmission Power (EIRP): 
2.4 GHz
SRRC/CE: 18.5 dBm, NCC/FCC /MIC/KCC: 20.5 dBm
5.2 GHz
SRRC/NCC/FCC/CE/MIC: 14 dBm, KCC: 10 dBm
5.8 GHz
SRRC/NCC/FCC: 18 dBm, CE/KCC: 12 dBm
Bluetooth
Protocol: Bluetooth 4.2
Operating Frequency: 2.4000-2.4835 GHz
Transmission Power (EIRP): SRRC/NCC/FCC/CE/MIC/KCC: 6.5 dBm

REMOTE CONTROLLER INTELLIGENT BATTERY


Model: WB37-4920mAh-7.6V
Battery Type: 2S LiPo
Capacity: 4920 mAh
Voltage: 7.6 V
Energy: 37.39 Wh
Charging Environment Temperature: 5° to 40° C (41° to 104° F)

INTELLIGENT BATTERY CHARGING HUB


Model: WCH2
Input Voltage: 17.3-26.2 V
Output Voltage and Current: 8.7 V, 6 A
Operating Temperature: 5° to 40° C (41° to 104° F)


AC POWER ADAPTER


Model: A14-057N1A
Input Voltage: 100-240 V, 50/60 Hz
Output Voltage: 17.4 V
Rated Power: 57 W

DJI Phantom 4 RTK

 

Aircraft
Weight (Battery & Propellers Included) 1391 g
Max Service Ceiling Above Sea Level 19685 ft (6000 m)
Max Ascent Speed 5 m/s
Max Descent Speed 3 m/s
Max Speed 31 mph (50 kph) (P-mode); 36 mph (58 kph) (A-mode)
Max Flight Time Approx. 30 minutes
Operating Temperature 32° to 104° F (0° to 40° C)
Operating Frequency 2.400 GHz to 2.483 GHz (Europe, Japan, Korea)
5.725 GHz to 5.850 GHz (United States, China)

EIRP 2.4 GHz

CE (Europe) / MIC (Japan) / KCC (Korea): < 20 dBm
5.8 GHz
FCC (United States) / SRRC (China): < 26 dBm
Hover Accuracy

Range RTK enabled and functioning properly:
Vertical: ±0.1 m; Horizontal: ±0.1 m
RTK disabled:
Vertical: ±0.1 m (with vision positioning); ±0.5 m (with GNSS positioning)
Horizontal: ±0.3 m (with vision positioning); ±1.5 m (with GNSS positioning)
Image Position Offset The position of the camera center is relative to the phase center of the onboard D-RTK
antenna under the aircraft body’s axis: (36, 0, and 192 mm) already applied to the image
coordinates in Exif data. The positive x, y, and z axes of the aircraft body point to the
forward, rightward, and downward of the aircraft, respectively.

● GNSS
Single-Frequency High-Sensitivity
GNSS

GPS + BeiDou + Galileo* (Asia); GPS + GLONASS + Galileo* (other regions)

Multi-Frequency Multi-System HighPrecision RTK GNSS
Frequency Used
GPS: L1/L2; GLONASS: L1/L2; BeiDou: B1/B2; Galileo*: E1/E5a
First-Fixed Time: < 50 s
Positioning Accuracy: Vertical 1.5 cm + 1 ppm (RMS); Horizontal 1 cm + 1 ppm (RMS).
1 ppm means the error has a 1 mm increase for every 1 km of movement from the aircraft.
Velocity Accuracy: 0.03 m/s

● Mapping Functions
Mapping Accuracy** Mapping accuracy meets the requirements of the ASPRS Accuracy Standards for Digital

Orthophotos Class III.

Ground Sample Distance (GSD) (H/36.5) cm/pixel, H means the aircraft altitude relative to shooting scene (unit: m)
Acquisition Efficiency Max operating area of approx. 1 km2

for a single flight (at an altitude of 182 m, i.e., GSD is
approx. 5 cm/pixel, meeting the requirements of the ASPRS Accuracy Standards for Digital
Orthophotos Class III).

● Gimbal
Controllable Range Pitch: -90° to +30°
● Vision System
Velocity Range ≤ 31 mph (50 kph) at 6.6 ft (2 m) above ground with adequate lighting
Altitude Range 0 - 33 ft (0 - 10 m)
Operating Range 0 - 33 ft (0 - 10 m)
Obstacle Sensory Range 2 - 98 ft (0.7 - 30 m)
Operating Environment Surfaces with clear patterns and adequate lighting (> 15 lux)
● Infrared Sensing System
Obstacle Sensory Range 0.6 - 23 ft (0.2 - 7 m)
Operating Environment Surface with diffuse reflection material, and reflectivity > 8% (such as wall, trees, humans, etc.)
● Camera
Sensor 1’’ CMOS; Effective pixels: 20M
Lens FOV (Field of View) 84°, 8.8 mm (35 mm format equivalent: 24 mm), f/2.8 - f/11, auto focus

at 1 m - ∞

ISO Range Video: 100 - 3200 (Auto), 100 - 6400 (Manual); Photo: 100 - 3200 (Auto), 100 - 12800 (Manual)
* supported later
** The actual accuracy depends on surrounding lighting and patterns, aircraft altitude, mapping software used, and other factors when
shooting.

 

In the box

1 x T30 aircraft

1 x Enterprise Smart Controller

1 x 24W USB charger (For Remote)

1 x RTK module (For Remote)

1 x WB37 battery charger

1 x WB37 (For Remote)

1 x Lanyard

1 x USB C charge cable

1 x Field repair accessory pack

1 x DJI Agras T30 Intelligent Battery Station

3 x DJI Agras T30 Intelligent Battery

1 x Phantom 4 RTK

1 x D-RTK 2 Mobile Base Station

1 x Half-day handover and training (t&cs apply).

WHY BUY FROM US?

By buying from Ferntech, you'll have the confidence that you are dealing directly with New Zealand's leading drone experts. Our staff are knowledgable drone pilots who offer expert advice, trusted support and superior specialist service. Only through us will you receive a full New Zealand warranty, phone and email support, and access to our certified Repairs Centre with DJI-qualified drone technicians. And we guarantee that we will have the best prices on the market — if not let us know and we will match any price (conditions apply).

 

Warranty Details

MC: 12 Months
Gimbal Camera: 6 Months
Propulsion system (excluding propellers): 6 Months
Remote Controller: 6 Months
Battery:  6 Months and Charge Cycle less than 200 Times
Battery Charger: 12 Months
Frame: No warranty
Propeller: No warranty

T30

How is the flight performance of the T30?

Maximum flight altitude: 30 meters (Interim Provisions on UAV Flight Management (draft for comment)).
Maximum communication range: 5,000 m (measured at a flight altitude of 2.5 m).
Maximum flight speed: 10 m/s; maximum operational flight speed: 7 m/s.
Hovering time: 20.5 minutes (at a takeoff weight of 36.5 kg); 7.8 minutes (at a takeoff weight of 66.5 kg).


What is the operational efficiency of the T30?

The drone can spray 16.5 acres per hour on average (with a dosage of 4.8 L/acre, spraying width of 5 m, speed of 5 m/s, and height of 2.5m).


What are the advantages of the T30 compared with the T20 agricultural drone?

The T30 has a maximum load of 30 kg, an increase of 50%.
The T30 is equipped with spherical omnidirectional obstacle avoidance radar, which supports omnidirectional obstacle avoidance in the horizontal and overhead directions and terrain adaptation and altitude maintenance functions in the downward direction.
The T30's spraying system adopts a high-flow plunger pump, high-precision electromagnetic flowmeter, high-pressure solenoid valve, and 16 nozzles in a more reasonable layout, each of which is controlled independently for more accurate control, a larger flow range, and more uniform application.
The T30 supports branch targeting technology for better penetration when spraying fruit trees.
The T30 comes with a front and rear dual-channel real-time image monitoring system for safer flight.


In what direction do the T30's blades rotate?


In terms of the rotating direction and blade layout, what is the difference between the T30 and conventional six-rotor drones?

The layout of the T30 increases downward wind field stability, resulting in fewer upward droplets, a larger effective spraying width, better droplet penetration, and more uniform distribution.


Does the T30 allow you to use one remote control for multiple drones?

You can use one remote control for up to three drones.


Do users need to assemble the T30 by themselves?

The user only needs to open the package and activate the drone. No assembly is required.


Can the T30 be folded up?

The drone can be quickly folded to 20% of its original size.


Does the T30 support arms-in-place detection?

Yes. With sensors mounted on its arms, the T30 can detect whether its arms are extended and locked in place, improving its safety during use.


What is the safety distance for personnel when the T30 takes off and lands?

At least 10 meters.


Spraying System

What's the capacity of the T30's operating tank? Can it be removed and replaced?

The full capacity of the operating tank is 30 L. It cannot be quickly removed and replaced.


Is the T30 operating tank exchangeable with those of T20, T16, and T10?

No.


What is the pump pressure range of the T30?

2-4.5 kg/cm².


What is the maximum spraying volume per minute of the T30?

SX11001VS: 7.2L/min
SX110015VS: 8L/min
TX-VK4:3.6 L/min


Are the nozzles of the T30 exchangeable with those of the T20 and T16?

The T30 supports the following nozzle models:
SX11001VS (Standard)
SX110015VS (Optional)
Fruit Tree mode: TVK04 (Optional)


What are the differences between the spraying systems of the T30 and T16?

The all-new plunger pump produces a strong flow of 8 L/min.
Independent control by means of 8 groups of solenoid valves provides more accurate spraying.
The full-coverage spray by 16 nozzles ensures more uniform droplet distribution and no leakage during ultra-low flight.
The intelligent continuous liquid level meter provides real-time detection of the remaining pesticide volume.


Can the T30 intelligently predict refilling points?

Yes. The T30 detects the remaining pesticide level in the tank in real time and intelligently plans refilling points. This will significantly improve the efficiency of battery charging and tank refills.


Radar

What features does T30's spherical omnidirectional obstacle avoidance radar support?

1. It supports omnidirectional obstacle avoidance in the horizontal and overhead directions.
2. It supports automatic obstacle avoidance in the horizontal direction.
3. It supports precise height maintenance in the downward direction for terrain adaptation during flight.


Is the T30's spherical omnidirectional obstacle avoidance radar exchangeable with that of the T20, T16, or T10?

The T30 omnidirectional digital radar is exchangeable with that of the T10, but not the T20 or T16.


What is the obstacle avoidance distance of the T30?

The T30 will start to decelerate when its radar detects an obstacle with a diameter above 1 cm that is 15 meters away. Then, it will start to detour around the obstacle when it is about 6 meters away, or hover with the tip of the blade about 2.5 meters away from the obstacle.


What features does the T30's upward-looking radar support?

The upward-looking radar can detect obstacles above the drone in real time and hover precisely to avoid obstacles when rising.


What is the detection angle and distance of the T30's upward-looking radar?

Perceivable distance: 1.5 to 10 meters.
FOV:80°。


Does the T30 support obstacle avoidance when flying over complex mountainous terrain?

Yes.


Can users adjust the obstacle avoidance sensitivity and side detection distance of the T30's radar based on their individual needs?

Yes. Users can set the obstacle avoidance sensitivity in the app based on their actual needs.


Fruit Tree Mode

Does the T30 support fully autonomous operation in Fruit Tree mode?

Yes. After the orthoimage of the operation area is obtained with the Phantom 4 RTK, map the operation area with DJI Terra, which supports the Fruit Tree mode. After the operation area is selected, the AI system will automatically identify the properties of crops and obstacles in the area and automatically generate a 3D operation route with six optional route planning and spraying combinations. After downloading the 3D route, the agricultural drone can carry out the operation.


In which scenarios should Fruit Tree mode be used?

Fruit Tree mode not only allows normal operation in flat orchards, but also applies to the operations in mountainous areas and slopes with large changes in height, such as tea plantations, orange orchards, and peach orchards located in mountainous regions.


What computer configuration is recommended for Fruit Tree mode?

DJI Terra requires Windows 7 or later (64-bit).


How does the T30 perform branch targeting?

The form of the T30 can be changed by adjusting the arms for branch targeting, allowing the sprayed droplets to penetrate fruit trees along their branches.


How does T30's branch targeting technology improve its performance?

The T30's branch targeting technology allows the liquid to flow down along the branches in order to penetrate the fruit tree canopy, thus increasing the application amount on both the front and back of the leaves. In addition, the spraying system adopts a new plunger pump with a maximum flow rate of 8 L/min and TX-VK 04 nozzles for small droplets and high flow.


What operating modes does T30's branch targeting technology support?

You can use branch targeting in all the operation modes of the T30, but we only recommend it for orchard spraying operations in the Fruit Tree mode 3.0.


Can T30 work on the plots planned for the T20, T16, and T10?

Yes. Please check the operating parameters such as safety distance, track spacing, and flight speed before operation.


How do you enable and use the branch targeting technology?

To adjust the arms and change the form of the T30, please contact your local dealer.


Battery and charger

Is T30's smart flight battery exchangeable with those of T20, T16, and T10?

No.


How long is the service life of the T30's battery?

The T30 smart flight battery is warrantied for 1,000 cycles, with charging/discharging of at least 75% counted as one cycle.


Can the T30 smart charging manager be used to charge the batteries of the T20, T16, and T10?

No.


How long does the T30 smart charge manager need to charge the T30's smart flight battery?

When two AC power lines are connected, it can fully charge a battery in 9-12 minutes.
When one AC power line is connected, it can fully charge a battery in 18-25 minutes.
The smart charge manager dynamically adjusts the charging power based on the environment, so the actual charging time will vary.


Variable-frequency charging station

How long does the D9000i variable-frequency charging station take to charge the T30 smart flight battery?

It can fully charge a battery in 9-12 minutes.
The variable-frequency charging station adjusts the charging power dynamically based on the environment, so the actual charging time will vary.


What fuel does the D9000i variable-frequency charging station use?

92# gasoline is recommended.


Does the D9000i variable-frequency charging station support 220V AC output?

It supports 220V AC output with a maximum power of 300W.


Can the D9000i variable-frequency charging station charge the smart flight batteries of the T20, T16, and T10?

No.


Does the D9000i variable-frequency charging station support one-button startup?

Yes (connection to the smart flight battery is required).


What is the working fuel consumption of the D9000i variable-frequency charging station?

About 0.6 L per T30 smart battery in of cyclic charging
*Charged from 30% to 95%


Spreading system

What models are supported by the T-Series Spreading System 3.0?

It supports the T30 and T10, which are equipped with 40L and 12L tanks, respectively.


What solid particles can be distributed with the T-Series Spreading System 3.0?

Solid dry particles with a diameter of 0.5-5 mm can be spread.


What are the protective ratings of the T-Series Spreading System 3.0?

The Spreading System 3.0 has IP67 water-resistance and improved resistance to corrosion and abrasion.


Does the T-Series Spreading System 3.0 provide an increased flow rate?

Compared to the Spreading System 2.0, the maximum bin opening area of the Spreading System 3.0 has increased by 38% (from 32.3cm² to 44.6cm²).


Has the tank empty detection function of the T-Series Spreading System 3.0 been improved?

In Spreading System 3.0, the structure and algorithm of the tank empty detection device were optimized to improve the detection accuracy and timeliness.


Is it easier to load materials into the T-Series Spreading System 3.0?

The T30's Spreading System 3.0 features a flip-top tank with a larger opening for easier loading.


Remote Control

How long is the battery life of the T30's remote control?

The remote control supports both internal and external batteries and can operate 2 hours with the former and another 2 hours with the latter.


Is the remote control of the T30 exchangeable with those of the T20, T16, or T10?

The remote control of the T30 is exchangeable with that of the T10, but not with those of the T20 and T16.


Is the RTK high-precision positioning module standard for the T30 remote control?

Yes. The external RTK high-precision positioning module provides the remote control with high-precision positioning information precise to the centime meter. This allows accurate work planning and improves operation efficiency and flight safety.


Does the T30 remote control provide upgraded protection?

The T30 remote control has a protective case for the external battery, and the keys are dust-proof for better protection.


Can the front and rear views of the T30's dual-channel real-time image monitoring system be displayed simultaneously?

Yes.


Smart Agricultural Cloud Platform

Can photos taken by the Phantom 4 RTK be reconstructed in the cloud?

Yes. Farm scenarios and the fruit tree scenarios can be reconstructed in the smart agriculture cloud platform. Please go to the official website for news about the launch time.


Can photos taken by the Phantom 4 Multispectrum Edition be reconstructed in the cloud?

Yes. The multispectral photos can be reconstructed in the smart agriculture cloud platform. Please go to the official website for news about the launch time.


With the Smart Agriculture Cloud Platform, is it possible to perform mapping and route planning without high-performance computers?

Yes, route planning can be performed on your mobile phone, tablet, or personal computer.

 

There's currently no reviews for this product, be the first to write one.

Write a product review