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- Description
- Bundle Comparison
- Additional Information
- DJI AGRAS T40 Specs
- Training & Endorsements
- DJI AGRAS T30 Specs
- DJI Mavic 3 E/T Specs
- XAG Training & Endorsement
Aircraft Parameters
| 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
| Stator Size | 100×33 mm |
| Motor KV Value | 48 RPM/V |
| Motor Power | 4000 W/rotor |
Propulsion System – Propeller
| Diameter | 54 inch |
| Rotor Quantity | 8 |
Dual Atomized Spraying System – Operation Box
| Operation Box Capacity | Full load 40 L |
| Operating Payload | Full load 40 kg[1] |
Dual Atomized Spraying System – Sprinkler
| 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
| 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
| 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
| 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 | 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
| Model | BAX601-30000mAh-52.22V |
| Weight | Approx. 12 kg |
| Capacity | 30000 mAh |
| 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 [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
- [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. - The terms HDMI, HDMI High-Definition Multimedia Interface, HDMI Trade dress and the HDMI Logos are trademarks or registered trademarks of HDMI Licensing Administrator, Inc.
DJI AGRAS T30 / T40 Endorsement
CASA requires anyone flying a drone weighing more than 25kg to have an RePL, and then a “type endorsement” for any machine that weighs more than 25kg, added to their RePL. This training will give you that type endorsement.
I only want to fly on my own land – do I still need a type endorsement?
Yes! Even if you are going to operate over your own land, CASA require you to have a Remote Pilots Licence (RePL) with the Type Endorsement for the particular machine you wish to operate. You may not need the Remote Operator’s Certificate (ReOC), but you will need the RePL with Type Endorsements.
For example. If you want to operate a DJI T40 (even over your own land) then you will need an RePL with the DJI T40 Type Endorsement as a minimum. If you want to fly the DJI T40 for other customers, you will also need an ReOC with the DJI T40 added to it.
Are there any prerequisites?
YES! You must hold a Multirotor <25kg (unrestricted) licence in order to complete. If you only have <7kg, you will need an upgrade.
We can offer you this as part of the training.
How much does it cost?
Please enquire for pricing. We offer both a full day of training including the endorsement or the flight test only.
You must hold an RePL in order to sit this endorsement. If you don’t have an RePL, we can arrange for you to sit our RePL course prior (addition costs incurred).
How long does it take?
This will very much depend on how well you know your DJI Product. If you have already been flying DJI product (and the Agras), then the endorsement should only take a couple of hours.
We would recommend you already have experience (practice) flying a DJI drone. This is so you will already have good grasp of the ecosystem, and had practice on the DJI T40. If you would like specific training on the DJI T40, this can be arranged (additional costs incurred).
Where can I do this?
The DJI Agras endorsement requires a large open space. Ideally you will have somewhere already to host the training. If not, you can also attend our training area in Bowen QLD.
If need be, we will arrange a suitable location around Australia to conduct the training.
Depending on where you are, there may be additional travel costs associated with us getting to you. Please let us know when you book your endorsement.
What’s involved?
You will be required to demonstrate your ability to fly a DJI Agras RPA with skill and agility. You will also need to have a good understanding of the software, and how to program automated flight.
You will also need a fundamental understanding of the regulations surrounding flying above 25kg machines (training material will be supplied to you) in order to pass the flight test.
Should you require intensive DJI Agras specific training, this can be provided (additional costs incurred).
Your paperwork and the associated fee’s are submitted to CASA directly on your behalf.
| 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 | √ |
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 | 8 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 |
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 |
Aircraft
| Weight (with propellers, without accessories) [1] | DJI Mavic 3E: 915 g DJI Mavic 3T: 920 g |
| Max Takeoff Weight | DJI Mavic 3E: 1,050 g DJI Mavic 3T: 1,050 g |
| Dimensions | Folded (without propellers): 221×96.3×90.3 mm (L×W×H) Unfolded (without propellers): 347.5×283×107.7 mm (L×W×H) |
| Diagonal Distance | 380.1 mm |
| Max Ascent Speed | 6 m/s (Normal Mode) 8 m/s (Sport Mode) |
| Max Descent Speed | 6 m/s (Normal Mode) 6 m/s (Sport Mode) |
| Max Flight Speed (at sea level, no wind) | 15 m/s (Normal Mode) Forward: 21 m/s, Side: 20 m/s, Backward: 19 m/s (Sport Mode) [2] |
| Max Wind Speed Resistance | 12 m/s [3] |
| Max Take-off Altitude Above Sea Level | 6000 m (without payload) |
| Max Flight Time (no wind) | 45 mins [4] |
| Max Hover Time (no wind) | 38 mins |
| Max Flight Distance | 32 km |
| Max Pitch Angle | 30° (Normal Mode) 35° (Sport Mode) |
| Max Angular Velocity | 200°/s |
| GNSS | GPS+Galileo+BeiDou+GLONASS (GLONASS is supported only when the RTK module is enabled) |
| Hovering Accuracy | Vertical: ±0.1 m (with Vision System); ±0.5 m (with GNSS); ±0.1 m (with RTK) Horizontal: ±0.3 m (with Vision System); ±0.5 m (with High-Precision Positioning System); ±0.1 m (with RTK) |
| Operating Temperature Range | -10° to 40° C (14° to 104° F) |
| Internal Storage | N/A |
| Motor Model | 2008 |
| Propeller Model | 9453F Propellers for Enterprise |
| Beacon | Built into the aircraft |
Wide Camera
| Sensor | DJI Mavic 3E: 4/3 CMOS, Effective pixels: 20 MP DJI Mavic 3T: 1/2-inch CMOS, Effective pixels: 48 MP |
| Lens | DJI Mavic 3E: FOV: 84° Format Equivalent: 24 mm Aperture: f/2.8-f/11 Focus: 1 m to ∞ DJI Mavic 3T: FOV: 84° Format Equivalent: 24 mm Aperture: f/2.8 Focus: 1 m to ∞ |
| ISO Range | DJI Mavic 3E: 100-6400 DJI Mavic 3T: 100-25600 |
| Shutter Speed | DJI Mavic 3E: Electronic Shutter: 8-1/8000 s Mechanical Shutter: 8-1/2000 s DJI Mavic 3T: Electronic Shutter: 8-1/8000 s |
| Max Image Size | DJI Mavic 3E: 5280×3956 DJI Mavic 3T: 8000×6000 |
| Still Photography Modes | DJI Mavic 3E: Single: 20 MP Timed: 20 MP JPEG: 0.7/1/2/3/5/7/10/15/20/30/60 s JPEG+RAW: 3/5/7/10/15/20/30/60 s Smart Low-light Shooting: 20 MP Panorama: 20 MP (raw image) DJI Mavic 3T: Single: 12 MP/48 MP Timed: 12 MP/48 MP JPEG: 2/3/5/7/10/15/20/30/60 s* Panorama: 12 MP (raw image); 100 MP (stitched image) * Shooting 48MP photo does not support 2s interval Smart Low-light Shooting: 12 MP |
| Video Resolution | H.264 4K: 3840×2160@30fps FHD: 1920×1080@30fps |
| Bitrate | DJI Mavic 3E: 4K: 130 Mbps FHD: 70 Mbps DJI Mavic 3T: 4K: 85 Mbps FHD: 30 Mbps |
| Supported File Formats | exFAT |
| Photo Format | DJI Mavic 3E: JPEG/DNG (RAW) DJI Mavic 3T: JPEG |
| Video Format | MP4 (MPEG-4 AVC/H.264) |
Tele Camera
| Tele Camera | 1/2-inch CMOS, Effective pixels: 12 MP |
| Lens | FOV: 15° Format Equivalent: 162 mm Aperture: f/4.4 Focus: 3 m to ∞ |
| ISO Range | DJI Mavic 3E: 100-6400 DJI Mavic 3T: 100-25600 |
| Shutter Speed | Electronic Shutter: 8-1/8000 s |
| Max Image Size | 4000×3000 |
| Photo Format | JPEG |
| Video Format | MP4 (MPEG-4 AVC/H.264) |
| Still Photography Modes | DJI Mavic 3E: Single: 12 MP Timed: 12 MP JPEG: 0.7/1/2/3/5/7/10/15/20/30/60 s Smart Low-light Shooting: 12 MP DJI Mavic 3T: Single: 12 MP Timed: 12 MP JPEG: 2/3/5/7/10/15/20/30/60 s Smart Low-light Shooting: 12 MP |
| Video Resolution | H.264 4K: 3840×2160@30fps FHD: 1920×1080@30fps |
| Bitrate | DJI Mavic 3E: 4K: 130 Mbps FHD: 70 Mbps DJI Mavic 3T: 4K: 85 Mbps FHD: 30 Mbps |
| Digital Zoom | 8x (56x hybrid zoom) |
Thermal Camera [5]
| Thermal Imager | Uncooled VOx Microbolometer |
| Pixel Pitch | 12 μm |
| Frame Rate | 30 Hz |
| Lens | DFOV: 61° Format Equivalent: 40 mm Aperture: f/1.0 Focus: 5 m to ∞ |
| Sensitivity | ≤50 mK@F1.0 |
| Temperature Measurement Method | Spot Meter, Area Measurement |
| Temperature Measurement Range | -20° to 150° C (-4° to 302° F, High Gain Mode) 0° to 500° C (32° to 932° F, Low Gain Mode) |
| Palette | White Hot/Black Hot/Tint/Iron Red/Hot Iron/Arctic/Medical/Fulgurite/Rainbow 1/Rainbow 2 |
| Photo Format | JPEG (8-bit) R-JPEG (16-bit) |
| Video Resolution | 640×512@30fps |
| Bitrate | 6 Mbps |
| Video Format | MP4 (MPEG-4 AVC/H.264) |
| Still Photography Modes | DJI Mavic 3T: Single: 640×512 Timed: 640×512 JPEG: 2/3/5/7/10/15/20/30/60 s |
| Digital Zoom | 28x |
| Infrared Wavelength | 8-14 μm |
| Infrared Temperature Measurement Accuracy | ±2° C or ±2% (using the larger value) |
Gimbal
| Stabilization | 3-axis (tilt, roll, pan) |
| Mechanical Range | DJI Mavic 3E: Tilt: -135° to 100° Roll: -45° to 45° Pan: -27° to 27° DJI Mavic 3T: Tilt: -135° to 45° Roll: -45° to 45° Pan: -27° to 27° |
| Controllable Range | Tilt: -90° to 35° Pan: Not controllable |
| Max Control Speed (tilt) | 100°/s |
| Angular Vibration Range | ±0.007° |
Sensing
| Type | Omnidirectional binocular vision system, supplemented with an infrared sensor at the bottom of the aircraft. |
| Forward | Measurement Range: 0.5-20 m Detection Range: 0.5-200 m Effective Sensing Speed: Flight Speed ≤15 m/s FOV: Horizontal 90°, Vertical 103° |
| Backward | Measurement Range: 0.5-16 m Effective Sensing Speed: Flight Speed ≤12 m/s FOV: Horizontal 90°, Vertical 103° |
| Lateral | Measurement Range: 0.5-25 m Effective Sensing Speed: Flight Speed ≤15 m/s FOV: Horizontal 90°, Vertical 85° |
| Upward | Measurement Range: 0.2-10 m Effective Sensing Speed: Flight Speed ≤6 m/s FOV: Front and Back 100°, Left and Right 90° |
| Downward | Measurement Range: 0.3-18 m Effective Sensing Speed: Flight Speed ≤6 m/s FOV: Front and Back 130°, Left and Right 160° |
| Operating Environment | Forward, Backward, Lateral, and Upward: Surface with a clear pattern and adequate lighting (lux >15) Downward: Diffuse reflective surface with diffuse reflectivity>20% (e.g. walls, trees, people) and adequate lighting (lux >15) |
Video Transmission
| Video Transmission System | DJI O3 Enterprise Transmission |
| Live View Quality | Remote Controller: 1080p/30fps |
| Operating Frequency [6] | 2.400-2.4835 GHz 5.725-5.850 GHz |
| Max Transmission Distance (unobstructed, free of interference) [7] | DJI Mavic 3E: FCC: 15 km CE: 8 km SRRC: 8 km MIC: 8 km DJI Mavic 3T: FCC: 15 km CE: 8 km SRRC: 8 km |
| Max Transmission Distance (Obstructed) [8] | Strong Interference (dense buildings, residential areas, etc.): 1.5-3 km (FCC/CE/SRRC/MIC) Medium Interference (suburban areas, city parks, etc.): 3-9 km (FCC), 3-6 km (CE/SRRC/MIC) Low Interference (open spaces, remote areas, etc.): 9-15 km (FCC), 6-8 km (CE/SRRC/MIC) |
| Max Download Speed[9] | 15 MB/s (with DJI RC Pro Enterprise) |
| Latency (depending on environmental conditions and mobile device) | Approx. 200 ms |
| Antenna | 4 Antennas, 2T4R |
| Transmission Power (EIRP) | 2.4 GHz: <33 dBm (FCC), <20 dBm (CE/SRRC/MIC) 5.8 GHz: <33 dBm (FCC), <30 dBm (SRRC), <14 dBm (CE) |
DJI RC Pro Enterprise
| Video Transmission System | DJI O3 Enterprise Transmission |
| Max Transmission Distance (unobstructed, free of interference) [7] | FCC: 15 km CE/SRRC/MIC: 8 km |
| Video Transmission Operating Frequency [6] | 2.400-2.4835 GHz 5.725-5.850 GHz |
| Antenna | 4 Antennas, 2T4R |
| Video Transmission Transmitter Power (EIRP) | 2.4 GHz: <33 dBm (FCC), <20 dBm (CE/SRRC/MIC) 5.8 GHz: <33 dBm (FCC), <14 dBm (CE), <23 dBm (SRRC) |
| Wi-Fi Protocol | 802.11 a/b/g/n/ac/ax Support 2×2 MIMO Wi-Fi |
| Wi-Fi Operating Frequency [6] | 2.400-2.4835 GHz 5.150-5.250 GHz 5.725-5.850 GHz |
| Wi-Fi Transmitter Power (EIRP) | 2.4 GHz: <26 dBm (FCC), <20 dBm (CE/SRRC/MIC) 5.1 GHz: <26 dBm (FCC), <23 dBm (CE/SRRC/MIC) 5.8 GHz: <26 dBm (FCC/SRRC), <14 dBm (CE) |
| Bluetooth Protocol | Bluetooth 5.1 |
| Bluetooth Operating Frequency | 2.400-2.4835 GHz |
| Bluetooth Transmitter Power (EIRP) | < 10 dBm |
| Screen Resolution | 1920×1080 |
| Screen Size | 5.5 inches |
| Screen | 60 fps |
| Brightness | 1,000 nits |
| Touchscreen Control | 10-point multi-touch |
| Battery | Li-ion (5000 mAh @ 7.2 V) |
| Charging Type | Recommended to be charged with the included DJI USB-C Power Adapter (100W) or USB charger at 12 V or 15 V |
| Rated Power | 12 W |
| Storage Capacity | Internal Storage (ROM): 64 GB Supports a microSD card for expanded capacity. |
| Charging Time | Approx. 1 hour 30 minutes (with the included DJI USB-C Power Adapter (100W) only charging the remote controller or a USB charger at 15 V) Approx. 2 hours (with a USB charger at 12 V) Approx. 2 hours 50 minutes (with the included DJI USB-C Power Adapter (100W) charging the aircraft and remote controller simultaneously) |
| Operating Time | Approx. 3 hours |
| Video Output Port | Mini-HDMI port |
| Operating Temperature Range | -10° to 40° C (14° to 104° F) |
| Storage Temperature | -30° to 60° C (-22° to 140° F) (within one month) -30° to 45° C (-22° to 113° F) (one to three months) -30° to 35° C (-22° to 95° F) (three to six months) -30° to 25° C (-22° to 77° F) (more than six months) |
| Charging Temperature | 5° to 40° C (41° to 104° F) |
| Supported DJI Aircraft[10] | DJI Mavic 3E DJI Mavic 3T |
| GNSS | GPS+Galileo+GLONASS |
| Dimensions | Antennas folded and controller sticks unmounted: 183.27×137.41×47.6 mm (L×W×H) Antennas unfolded and controller sticks mounted: 183.27×203.35×59.84 mm (L×W×H) |
| Weight | Approx. 680 g |
Storage
| Supported Memory Cards | Aircraft: U3/Class10/V30 or above is required. A list of recommended microSD cards can be found below. |
| Recommended microSD Cards | Remote Controller: SanDisk Extreme PRO 64GB V30 A2 microSDXC SanDisk High Endurance 64GB V30 microSDXC SanDisk Extreme 128GB V30 A2 microSDXC SanDisk Extreme 256GB V30 A2 microSDXC SanDisk Extreme 512GB V30 A2 microSDXC Lexar 667x 64GB V30 A2 microSDXC Lexar High-Endurance 64GB V30 microSDXC Lexar High-Endurance 128GB V30 microSDXC Lexar 667x 256GB V30 A2 microSDXC Lexar 512GB V30 A2 microSDXC Samsung EVO Plus 64GB V30 microSDXC Samsung EVO Plus 128GB V30 microSDXC Samsung EVO Plus 256GB V30 microSDXC Samsung EVO Plus 512GB V30 microSDXC Kingston Canvas Go! Plus 128GB V30 A2 microSDXC Kingston Canvas React Plus 128GB V90 A1 microSDXC Aircraft: SanDisk Extreme 32GB V30 A1 microSDHC SanDisk Extreme PRO 32GB V30 A1 microSDHC SanDisk Extreme 512GB V30 A2 microSDXC Lexar 1066x 64GB V30 A2 microSDXC Kingston Canvas Go! Plus 64GB V30 A2 microSDXC Kingston Canvas React Plus 64GB V90 A1 microSDXC Kingston Canvas Go! Plus 128GB V30 A2 microSDXC Kingston Canvas React Plus 128GB V90 A1 microSDXC Kingston Canvas React Plus 256GB V90 A2 microSDXC Samsung PRO Plus 256GB V30 A2 microSDXC |
Battery
| Capacity | 5000 mAh |
| Standard Voltage | 15.4 V |
| Max Charging Voltage | 17.6 V |
| Type | LiPo 4S |
| Chemical System | LiCoO2 |
| Energy | 77 Wh |
| Charging Temperature | 5° to 40° C (41° to 104° F) |
Charging Hub
| Input | USB-C: 5-20 V, 5.0 A |
| Output | Battery Port: 12-17.6 V, 8.0 A |
| Rated Power | 100 W |
| Charging Type | Three batteries charged in sequence |
| Charging Temperature Range | 5° to 40° C (41° to 104° F) |
RTK Module
| Dimensions | 50.2×40.2×66.2 mm (L×W×H) |
| Weight | 24±2 g |
| Interface | USB-C |
| Power | Approx. 1.2 W |
| RTK Positioning Accuracy | RTK Fix: Horizontal: 1 cm + 1 ppm; Vertical: 1.5 cm + 1 ppm |
Speaker
| Dimensions | 114.1×82.0×54.7 mm (L×W×H) |
| Weight | 85±2 g |
| Interface | USB-C |
| Rated Power | 3 W |
| Max Volume [11] | 110 dB @ 1 m |
| Effective Broadcast Distance [11] | 100 m @ 70 dB |
| Bit Rate | 16 Kbps/32 Kbps |
| Operating Temperature Range | -10° to 40° C (14° to 104° F) |
Notes
- [1] The standard weight of the aircraft (including the battery, propellers, and a microSD card). The actual product weight may vary due to differences in batch materials and external factors.
[2] Maximum speed in Sport mode is 19m/s when operating in EU regions.
[3] Max wind speed resistance during takeoff and landing.
[4] Measured with Mavic 3 Enterprise Series flying at a constant speed of 32.4 kph in a windless environment at sea level until the battery reached 0%. Data is for reference only. Please pay attention to RTH reminders in the DJI Pilot 2 app during flight.
[5] DO NOT expose the infrared camera lenses to strong sources of energy such as the sun, lava, or laser beams. Otherwise, the camera sensor may be burned, leading to permanent damage.
[6] In some countries and regions, the 5.8 and 5.1GHz frequencies are prohibited, or the 5.1GHz frequency is only allowed for indoor use. Check local laws and regulations for more information.
[7] Measured in an unobstructed environment free of interference. The above data shows the farthest communication range for one-way, non-return flights (with no payload) under each standard. During your flight, please pay attention to RTH reminders in the DJI Pilot 2 app.
[8] Data tested under different standards in unobstructed environments with typical interference. Uses for reference purposes only and provides no guarantee as to the actual flight distance.
[9] Measured in a laboratory environment with little interference in countries/regions that support both 2.4 GHz and 5.8 GHz. With footage saved on the officially recommended microSD cards. Download speeds may vary depending on actual conditions.
[10] Will support more DJI aircraft in the future. Visit the official website for the latest information.
[11] Data was measured in a controlled environment and is for reference only. Actual use experience may vary depending on software version, sound source, specific environment, and other conditions.
If you are looking to fly a XAG P100 Pro drone, then you will need to obtain the endorsement on your RePL. This is because the drone weighs more than 25kg.
Together with our partners FPV Australia, we deliver XAG Manufacturer training, and CASA Certifications nationwide.
I only want to fly over my own land? Do I still need it?
Yes! Even if you are going to operate over your own land, CASA require you to have a Remote Pilots Licence (RePL) with the Type Endorsement for the particular machine you wish to operate. You may not need the Remote Operator’s Certificate (ReOC), but you will need the RePL with Type Endorsements.
For example. If you want to operate an XAG P100 Pro, then you will need an RePL with the XAG P100 Pro Type Endorsement as a minimum.
How much does it cost?
Please enquire for pricing. If you do not have an RePL, we can arrange for you to sit our RePL course prior (addition costs incurred).
What locations are on offer in North Queensland?
Airlie Beach
Bowen
Cairns
Proserpine
Townsville
If need be, NQ Aerovation will arrange a suitable location around North Queensland to conduct the training.
Contact us for specific information on your location.
What locations are on offer across Australia?
Together with our partners FPV, we can travel to anywhere in Australia. Contact us for specific information on your location.
Do I need my own Aircraft?
If you attend the FPV Sydney training centre, then no! FPV will provide all of the aircraft for you. If you would like us to come to you to train, please contact us to discuss arrangements. We can travel to anywhere in Australia to train.
What will I learn?
The XAG Manufacturer Training course we have developed is designed to take you through the knowing very little about the aircraft, right through to having a good understand of how it works, and how to operate safely.
Here is some of what you will be taught:
How to use all of the equipment, and how to use the software appropriately to operate the drone in a safe and legal manner.
How to do basic maintenance on your drones, to ensure you get the best out them, and keep the running.
Recording requirements under the Part101 Manual of Standards
Regulatory Requirements for operation of Medium class RPA.
Will you handle all of the paperwork?
Yes, of course. Our training partners FPV Australia will facilitate all of the paperwork for you and submit to CASA on your behalf. We will also pay the fees to CASA directly.
Complete the form below and we will be in touch to discuss your training and Endorsement requirements: