- 2D Modelling
- 3D Modelling
- BVLOS
- External Asset Inspection
- Mapping
- Thermal Imaging
The DJI Matrice 30T SP Plus SET1 with Battery Station, DJI Care Enterprise Plus and 4pcs Batteries is DJI Enterprise's flagship drone that fits in a backpack. It integrates multiple high-performance sensors into one single camera payload, is controlled with an ingenious redesigned remote control and runs on upgraded Pilot 2 software, which significantly improves the flight experience. The M30 model offers much more power, endurance, and capability for rugged professional uses, while its size makes it ideal for easy transportation and fast setup.
Apart from its outstanding performance and new format, the DJI M30 allows professionals to fly and perform beyond their immediate surroundings. It integrates smoothly with the new DJI FlightHub 2 fleet management cloud-based software and the DJI Dock for collaboration with remote and unattended operations, bringing efficiency innovation to various industries.
Key Features of the DJI Matrice 30T SP Plus SET1 with Battery Station, DJI Care Enterprise Plus and 4pcs Batteries
- 2D Modelling
- 3D Modelling
- BVLOS
- External Asset Inspection
- Mapping
- Thermal Imaging
Pest Monitoring – Drone Use Case
Pests are often the cause of millions in dollars' worth of damage to crops every year, resulting in shortages and farmers not being paid for all the work they've done over the season.
Pit Calculations
Pit calculations are an important part of the mining and construction industry allowing important decisions to be made. These calculations are often done from the ground with a very manual approach that takes time and a lot of money.
Hot Spot Detection
When completing inspection work hot spots are always checked for as they are a key sign suggesting something isn't working correctly. Drones and landborne robots are the perfect extension to this by removing humans from potentially dangerous situations while improving the data collected.
Mobile Incident Response
Secure facilities always have the possibility of someone trying to unlawfully gain entry. When this happens a response team is required to find the person, intercept them, and remove them from the area. This can be slow and usually requires a lot of manpower. Drones can significantly improve this by arriving on scene faster and sending key information back to the response team.
Cattle Monitoring
Cattle monitoring is a key part of running a farm and ensuring it runs successfully. Cattle often have access to massive amounts of land and all need to be checked up once in a while to ensure everything is ok. Drones make this easy by flying above the cattle and capturing key data on them, rather than having someone manually do the checks, saving time, money, and improving efficiency.
Solar Panel Inspection
As the price of solar continues to reduce companies and families are starting to install solar panels, which means more green energy. As solar panels are in the great outdoors, the elements can be harsh on them, resulting in less energy production or the need for a new panel. Drones can quickly fly above solar panels, capture data, and spot any issues without the need for someone to do the work manually.
Traffic Monitoring
Traffic monitoring is a key requirement when managing a road related situation or looking for ways to improve current systems in place. Drones are often used in traffic monitoring to manage situations such as accidents and monitor the flow of vehicles for research purposes.
Mining Exploration
When a mining company wants to explore a new area, a survey, and photos and videos will be taken to be processed in the hopes that the land can be mined for a profit.
Aircraft
Dimensions . (unfolded, excl. propellers) | 470×585×215 mm (L×W×H) |
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Dimensions (folded) | 365×215×195 mm (L×W×H) |
Diagonal Wheelbase | 668 mm |
Weight (incl. two batteries) | 3770 ± 10 g |
Max Takeoff Weight | 4000 g |
Operation Frequency[1] | 2.4000-2.4835 GHz; 5.725-5.850 GHz |
Transmitter Power (EIRP) | 2.4 GHz: <33 dBm (FCC); <20 dBm (CE/SRRC/MIC) 5.8 GHz: <33 dBm (FCC/SRRC); <14 dBm (CE) |
Hovering Accuracy (windless or breezy) |
Vertical: ±0.1 m (Vision System enabled); ±0.5 m (N-mode with GPS); ±0.1 m (RTK) Horizontal: ±0.3 m (Vision System enabled); ±1.5 m (N-mode with GPS); ±0.1 m (RTK) |
RTK Positioning Accuracy (fixed RTK enabled) |
1 cm+1 ppm (horizontal) 1.5 cm+1 ppm (vertical) |
Max Angular Velocity | Pitch: 150°/sec.; Yaw: 100°/sec. |
Max Tilt Angle | 35° (N-mode and Forward Vision System enabled: 25°) |
Max Ascent/Descent Speed | 6 m/s, 5 m/s |
Max Tilt Descent Speed | 7 m/s |
Max Horizontal Speed | 23 m/s |
Max Service Ceiling Above Sea Level (without other payload) | 5,000 m (with 1671 propellers) 7,000 m (with 1676 propellers) |
Max Wind Resistance | 15 m/s 12 m/s during taking off and landing |
Max Hover Time [2] | 36 min |
Max Flight Time[2] | 41 min |
Motor Model | 3511 |
Propeller Model | 1671 1676 High Altitude (not included) |
Ingress Protection Rating[3] | IP55 |
GNSS | GPS+Galileo+BeiDou+GLONASS (GLONASS is supported only when RTK module is enabled) |
Operating Temperature | -20° to 50° C (-4° to 122° F) |
Gimbal
Angular Vibration Range | ±0.01° |
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Controllable Range | Pan: ±90° Tilt: -120° to +45° |
Mechanical Range | Pan: ±105° Tilt: -135° to +60° Roll: ±45° |
Zoom Camera
Sensor | 1/2" CMOS, Effective pixels: 48M |
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Lens | Focal length: 21-75 mm (equivalent: 113-405 mm) Aperture: f/2.8-f/4.2 Focus: 5 m to ∞ |
Wide Camera
Sensor | 1/2" CMOS, Effective pixels: 12M |
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Lens |
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Thermal Camera
Thermal Imager | Uncooled VOx Microbolometer |
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Lens | DFOV: 64° Focal length: 9.1 mm (equivalent: 40 mm) Aperture: f/1.0 Focus: 5 m to ∞ |
Infrared Temperature Measurement Accuracy[4] | ±2°C or ±2% (using the larger value) |
FPV Camera
Resolution | 1920×1080 |
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DFOV | 161° |
Frame Rate | 30 fps |
Laser Module
Wavelength | 905 nm |
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Max Laser Power | 3.5 mW |
Single Pulse Width | 6 ns |
Measurement Accuracy | ± (0.2 m + D×0.15%)D is the distance to a vertical surface |
Measuring Range | 3-1,200 m (0.5×12 m vertical surface with 20% reflectivity) |
Vision Systems
Obstacle Sensing Range | Forward: 0.6-38 m Upward/Downward/Backward/Sideward: 0.5-33 m |
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FOV | 65° (H), 50° (V) |
Operating Environment | Surfaces with clear patterns and adequate lighting (> 15 lux) |
Infrared Sensing Systems
Obstacle Sensing Range | 0.1 to 10 m |
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FOV | 30 |
Operating Environment | Large, diffuse, and reflective obstacles (reflectivity >10%) |
TB30 Intelligent Flight Battery
Capacity | 5880 mAh |
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Voltage | 26.1 V |
Battery Type | LiPo 6S |
Energy | 131.6 Wh |
Net Weight | Approx. 685 g |
Operating Temperature | -20° to 50° C (-4° to 122° F) |
Storage Temperature | 20° to 30° C (68° to 86° F) |
Charging Temperature | -20° to 40° C (-4° to 104° F)(When the temperature is lower than 10° C (50° F), the self-heating function will be automatically enabled. Charging in a low temperature may shorten the lifetime of the battery) |
Chemical System | LiNiMnCoO2 |
Auxiliary Lights
Effective Illumination Distance | 5 m |
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Illumination Type | 60 Hz, solid glow |
Remote Controller
Screen | 7.02 inch LCD touchscreen, with a resolution of 1920×1200 pixels, and high brightness of 1200 cd/m2 |
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Internal Battery | Type: Li-ion (6500 mAh @ 7.2 V) Charge Type: Supports battery station or USB-C charger maximum rated power 65W (max voltage of 20V) Charge Time: 2 hours Chemical System: LiNiCoAIO2 |
External Battery(WB37 Intelligent Battery) | Capacity: 4920 mAh Voltage: 7.6 V Battery Type: Li-ion Energy: 37.39 Wh Chemical System: LiCoO2 |
Operating Time[5] | Internal Battery: Approx. 3 hours 18 minInternal Battery + External Battery: Approx. 6 hours |
Ingress Protection Rating[3] | IP54 |
GNSS | GPS+Galileo+BeiDou |
Operating Temperature | -20° to 50° C (-4° to 122° F) |
O3 Enterprise
Operating Frequency[1] | 2.4000-2.4835 GHz, 5.725-5.850 GHz |
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Max Transmission Distance (unobstructed, free of interference) | 2.4000-2.4835 GHz: 15 km (FCC); 8 km (CE/SRRC/MIC) |
Max Transmission Distance (with interference) | Strong Interference (urban landscape, limited line of sight, many competing signals): 1.5-3 km (FCC/CE/SRRC/MIC) Medium Interference (suburban landscape, open line of sight, some competing signals): 3-9 km (FCC); 3-6 km (CE/SRRC/ MIC) Weak Interference (open landscape abundant line of sight, few competing signals): 9-15 km (FCC); 6-8 km (CE/ SRRC/MIC) |
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 | Wifi 6 |
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Operating Frequency[1] | 2.4000-2.4835 GHz; 5.150-5.250 GHz; 5.725-5.850 GHz |
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 |
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Operating Frequency | 2.4000-2.4835 GHz |
Transmitter Power (EIRP) | <10 dBm |
BS30 Intelligent Battery Station
Dimensions | 353×267×148 mm |
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Net Weight | 3.95 kg |
Compatible Battery Type | TB30 Intelligent Flight Battery WB37 Intelligent Battery |
Input | 100-240 VAC, 50/60 Hz |
Output | TB30 Battery Port: 26.1 V, 8.9 A (supported up to two outputs simultaneously) WB37 Intelligent Battery: 8.7 V, 6 A |
Output Power | 525 W |
USB-C port | Max. output power of 65 W |
USB-A port | Max. output power of 10 W (5 V, 2 A) |
Power Consumption (when not charging battery) | 8 W |
Output Power (when warming up battery) | Approx. 30 W |
Operating Temperature | -20° to 40° C (-4° to 104° F) |
Ingress Protection Rating[3] | IP55 (with the cover closed properly) |
Charging Time[6] | Approx. 30 min (charging two TB30 batteries from 20%-90%) Approx. 50 min (charging two TB30 batteries from 0%-100%) |
Protection Features | Anti-Backflow Protection Short Circuit Protection Over Voltage Protection Over Current Protection Temperature Protection |
SKU | DJIM30TPLUSSET1 |
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