DJI DOCK
For roads less Traveled
DJI Docks are rugged, reliable, and built to operate 24/7, day or night, rain or shine. Each DJI Dock houses a Matrice 30 where it can land, recharge, takes off, and execute missions programmed in DJI FlightHub 2.
Models
Compatible Software
Compatible Models (Dock Version) And Accessories
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A Powerful Industrial solution
DJI Dock features:
Integrated and Easy to Deploy
The DJI Dock is highly-integrated with hardware to improve functionality. This includes wide-angle security camera, integrated weather station, internal omni-directional antenna, RTK module, and edge computing expansion slot.
Rugged, Reliable, Waterproof Design
The DJI Dock is rated IP55 and the core internal components IP67, making it waterproof and dustproof even when open. The Dock interior is climate controlled for safe charging temperatures, even when the outside climate is -35°C to 50°C.
Emergency Power Supply
In case of a power outage, with up to 5 hours of battery life the Dock’s internal battery will take over to keep the dock operational and make sure the M30 lands safely from its mission.
Fast Charging, Fast Turnaround
Fast charge and take off thanks to TEC air conditioning that cools the drone batteries, enabling charging from 10-90% in just 25 minutes2.
Integrated Design
Highly Customizable Design
Cloud API opens up Dock functionality to developers and system integrators, who can set up a custom, private server.
DJI Docks have edge computing expansion slots that enable pre-processing of media files, and more, to further improve operational efficiency.
DJI Dock Workflow
Automated Deployment
DJI Dock will automatically deploy a fully charged Matrice 30 to conduct your inspection mission.
Remote Data Capture
Automonmously & remotely capture inspection data and images of your target subject.
Real-time Data Sharing
Real-time data sharing through cloud-connected management software, allowing instant data transfer and reporting.
Return to Home and Recharge
Matrice 30 Drone will autonomously land back on its DJI Dock and begin recharging its batteries for the next mission.
Simple Setup
One DJI Dock weighs less than 105 kg and has a <1 square-meter footprint. Setup only requires ground fixation, access to power and internet, and quick configuration via the DJI RC Plus remote controller.
DJI DOCK SPECIFICATIONS
Specification |
Value |
---|---|
Total Weight | 90 kg |
Dimensions |
Cover Open (Weather Station excluded): 1,675 mm×895 mm×530 mm (L×W×H) Cover Closed (Weather Station excluded): 805mm×895mm×840 mm (L×W×H) |
Input Voltage | 100-240 VAC, 47-63 Hz |
Max Input Power | 1,500 W |
Operating Temperature | -35 to 50° C (-31 to 122° F) |
Ingress Protection Rating | IP55 |
Number of Drones Accommodated | 1 |
Max Allowable Landing Wind Speed | 12 m/s |
Max Operating Altitude | 4,000 m |
Max Operating Radius | 7,000 m |
Receiving Frequency of RTK Base Station Satellite |
Simultaneously receive: GPS: L1 C/A, L2, L5 BeiDou2: B1l, B2l, B3l BeiDou3:B1l, B1C, B2a, B3l GLONASS:L1, L2 Galileo: E1, E5A, E5B |
Positioning Accuracy of RTK Base Station |
Horizontal: 1 cm+1 ppm (RMS) Vertical: 2 cm+1 ppm (RMS) |
Charging Performance | |
Output Voltage | 18 to 26.1 V |
Charging Time |
25 minutes Note: This is if the ambient temperature is 25°C (77° F), and the aircraft is charged from 10% to 90%. |
Video Transmission | |
Video Transmission System | O3 Enterprise |
Operating Frequency |
2.4000-2.4835 GHz 5.725-5.850 GHz |
Antennas | 4 antennas, 2T4R |
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) |
Air Conditioning System | |
Operating Voltage | 48 VDC |
Air Conditioning Type | TEC Air Conditioning |
Backup Battery | |
Battery Capacity | 12 Ah |
Output Voltage | 24 V |
Battery Type | Lead-acid Battery |
Backup Battery Life | > 5 hours |
Network Access | |
Ethernet Access | 10/100/1000Mbps Adaptive Ethernet port |
Sensor | |
Wind Speed Sensor | Supported |
Rainfall Sensor | Supported |
Ambient Temperature Sensor | Supported |
Water Immersion Sensor | Supported |
In-cabin Temperature Sensor | Supported |
In-cabin Humidity Sensor | Supported |
Vibration Sensor | Supported |
Integrated Security Camera (On Cover) | |
Resolution | 1920×1080 |
Field of View (FOV) | 180° |
Auxiliary Light | Supported, Auxiliary White Light |
Lightning Protection | |
AC Power Port | 40 kA (8/20μs waveform), meets EN/IEC 61643-11 TYPE 2 protection level requirements |
Ethernet Port | 1.5 kA (8/20μs waveform), meets EN/IEC 61643-21 CATEGORY C protection level requirements |
Supported Software | |
Applications | DJI Pilot 2 (connects to DJI Dock via DJI RC Plus for configuration and commissioning) |
Cloud Platform |
DJI FlightHub 2 3rd Party Platforms through DJI Cloud API |
Expansion Capability | |
Open Protocol | DJI Cloud API |
Edge Computing | Internal power supply, data interface, and installation space |
DJI Dock Applicable Industries
Power & Utility
–
Leverage remote monitoring to automate utility asset inspection and incident-based alerting.
Inspect critical infrastructure and identify anomalies in real-time to prevent outages and minimise asset downtime. Conduct frequent, repeatable and accurate data collection and identify failing equipment and hot spots with thermal and zoom cameras.
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Mining
–
Conduct assessments of confined spaces and areas that would otherwise be visually inaccessible or too hazardous for human intervention.
Evaluate the condition of mine shafts, sumps and boreholes; perform in-service remote inspection and avoid costly shutdowns; verify new pipeline construction prior to commissioning; and observe vehicle movements and stockpile measurements.
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Construction / infrastructure
–
Monitor site productivity with persistent visual data streams and centralised digital data management.
Build up to date high-resolution maps and 3D models to obtain a better view of the site, share with stakeholders and collaborate with staff. This data can also be used to track vehicle movements and calculate earthworks and stockpile measurements to improve forecast planning and reduce unnecessary costs.
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Oil & Gas
–
Minimise refinery downtime, reduce operation and maintenance costs, improve on-site safety and prevent serious failures.
Deploy autonomous drones on pre-scheduled missions to immediately detect leaks, faults, structural damage, environmental hazards, failures and other faults. This information enables maintenance teams to be more reactive and allows them to perform their daily tasks based on timely and accurate data.
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Security / Surveillance
–
Conduct persistent surveillance along predefined routes or launch for on-demand monitoring.
Operating in a covert capacity, drones increase the surveillance overlap against CCTV infrastructure, reduce blindspots, offer a changeable and unique perspective and provide continuous target tracking.
Where static surveillance sensors can be identified through reconnaissance and invite malicious workarounds, drones benefit for being uniquely positioned.
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