The DJI Mini 5 Pro is a Mini series DJI drone released in 2025, with 249.9 g, 1-inch CMOS, 4K/120fps, 36 min, 20 km, and O4+ connectivity. Reboot Hub uses this page as a technical reference for specs, compatible OEM parts, common repair planning, and inspected pre-owned buying checks.
| Model position | Mini series DJI drone, released 2025 |
| Flight profile | 249.9 g takeoff weight; 36 min flight time |
| Camera profile | 1-inch CMOS; 4K/120fps video |
| Signal profile | O4+; 20 km max range |
| Repair comparison | Compare shell, arm, ESC, flex cable, GPS, vision sensor, and gimbal availability before choosing between this model and another DJI drone. |
| Buying comparison | For pre-owned units, prioritize serial verification, battery health, gimbal calibration, flight test evidence, and warranty coverage over headline price alone. |
The DJI Mini 5 Pro is best evaluated by its weight, camera system, flight time, range, and repairability. Use the specs and parts library on this page to compare it with other DJI models before buying or repairing.
Yes. Reboot Hub maps serviceable parts for the DJI Mini 5 Pro, including shell, arm, circuit board, flex cable, gimbal, and camera-related assemblies where available. Chip-level diagnosis is recommended when crashes, water damage, ESC faults, or gimbal errors are present.
Compare takeoff weight, sensor size, video mode, flight time, transmission system, parts availability, and warranty coverage. These factors affect image quality, travel rules, repair cost, and long-term ownership risk.
Where inventory is available, Reboot Hub lists OEM-pulled DJI parts and compatible assemblies for the DJI Mini 5 Pro. Match the exact model, part zone, and connector generation before ordering a replacement.
Check the serial number, activation status, battery health, gimbal movement, camera focus, sensor calibration, flight logs, shell damage, and whether the seller provides a functional test video or inspection report.
The DJI Mini 5 Pro is a consumer drone from the Mini series, released in 2025. It features a weight of 249.9 grams and a maximum transmission range of 20 kilometers using O4+ technology, along with a 36-minute flight time and a camera system with a 1-inch CMOS sensor for 4K video at 120fps.
| Takeoff Weight | 249.9 g |
| Dimensions | Folded (without propellers): 157×95×68 mm (L×W×H) |
| Max Ascent Speed | 10 m/s (S Mode) |
| Max Descent Speed | 8 m/s (S Mode, using DJI Mini 5 Pro Intelligent Flight Battery Plus*) |
| Max Horizontal Speed | 19 m/s* (S Mode, using DJI Mini 5 Pro Intelligent Flight Battery Plus**) |
| Max Takeoff Altitude | 6000 m (using DJI Mini 5 Pro Intelligent Flight Battery) |
| Max Flight Time | 36 minutes (using DJI Mini 5 Pro Intelligent Flight Battery) |
| Typical Flight Time | 21 minutes (using DJI Mini 5 Pro Intelligent Flight Battery) |
| Max Flight Distance | 21 km (using DJI Mini 5 Pro Intelligent Flight Battery) |
| Max Wind Speed Resistance | 12 m/s |
| Max Pitch Angle | 38° |
| Operating Temperature | -10° to 40° C (14° to 104° F) |
| Global Navigation Satellite System | GPS + Galileo + BeiDou |
| Hovering Accuracy Range | Vertical: |
| Internal Storage | 42 GB |
| Class | C0 (EU) |
| Shutter Speed | 12MP Photo: 1/8000-2 s (2.5-8 s for simulated long exposure) |
| Max Control Speed (tilt) | 100°/s |
| Max Download Speed | O4+: |
| Image Sensor | 1-inch CMOS, 50MP Effective Pixels |
| Lens | FOV: 84° |
| ISO Range | Video |
| Max Image Size | 8192×6144 |
| Still Photography Modes | Single Shot: 12 MP and 50 MP |
| Photo Format | JPEG/DNG (RAW) |
| Video Resolution | H.264/H.265 |
| Video Format | MP4 (MPEG-4 AVC/H.264, HEVC/H.265) |
| Max Video Bitrate | H.264/H.265: 130 Mbps |
| Supported File System | exFAT |
| Color Mode and Sampling Method | Normal (FHD): |
| Digital Zoom | 12MP Photo: 1-3x |
| 3D Infrared Sensor | Forward-Facing LiDAR |
| Stabilization | 3-axis mechanical gimbal (tilt, roll, pan) |
| Mechanical Range | Tilt: -135° to 80° |
| Controllable Range | Tilt: -90° to 55° |
| Angular Vibration Range | ±0.005° |
| Sensing Type | Omnidirectional binocular vision system, supplemented with forward-facing LiDAR and an infrared sensor at the bottom of the aircraft |
| Forward | Measurement Range: 0.5-18 m |
| Backward | Measurement Range: 0.5-18 m |
| Lateral | Measurement Range: 0.5-12 m |
| Upward | Measurement Range: 0.5-18 m |
| Downward | Measurement Range: 0.3-14 m |
| Operating Environment | Forward, Backward, Left, Right, and Upward: |
| Video Transmission System | O4+ |
| Live View Quality | Remote Controller: |
| Operating Frequency | 2.400-2.4835 GHz |
| Transmitter Power (EIRP) | 2.4 GHz: |
| Max Transmission Distance (unobstructed, free of interference) | FCC: 20 km |
| Max Transmission Distance (unobstructed, with interference) | Strong Interference: Urban landscape, approx. 1.5-4 km |
| Max Transmission Distance (obstructed, with interference) | Low Interference and Obstructed by Buildings: Approx. 0-0.7 km |
| Lowest Latency | Aircraft + Remote Controller: Approx. 120 ms |
| Antenna | 4 antennas, 2T4R |
| Protocol | 802.11 a/b/g/n/ac/ax |
| Video Transmission Operating Frequency | 2.400-2.4835 GHz |
| Video Transmission Transmitter Power (EIRP) | 2.4 GHz: |
| Max Operating Time | Without charging any mobile device: 3.5 hours |
Symptoms: Cracked shell, bent arm, loose landing gear, abnormal vibration, or visible crash damage.
Likely areas: outer shell, arms, landing gear, motor mounts
Inspect the airframe before powering on and verify the exact replacement part against the model variant.
Symptoms: Motor start failure, rough spin, propulsion warning, overheating, or unstable hover.
Likely areas: motor, arm wiring, ESC board, power connectors
Check for impact damage, cable strain, and water exposure before replacing boards or motors.
Symptoms: Camera shake, gimbal overload warning, tilted horizon, calibration failure, or no camera image.
Likely areas: gimbal assembly, vibration board, camera module, gimbal flex cable
Avoid forcing the gimbal by hand and recalibrate after any gimbal or camera service.
Symptoms: Positioning drift, obstacle sensing warning, compass or IMU calibration prompt, or unstable low-altitude hover.
Likely areas: vision sensors, IMU, GPS/GNSS board, sensor flex cables
Clean sensor windows and verify calibration after shell, sensor, or board replacement.
Confirm the exact model, variant, error message, and visible damage before selecting parts. Do not substitute parts from a similar model without verification.
Remove the battery before opening the aircraft. Check for moisture, corrosion, and overheated connectors before reconnecting power.
Flex cables and coaxial cables are fragile. Route them without sharp bends and inspect connector locks before closing the shell.
After replacing gimbal, vision, GNSS, IMU, shell, arm, or propulsion parts, run the required calibration and perform a controlled low-altitude test.
Parts Atlas is being mapped from verified Reboot Hub inventory. Model specs and repair guidance are available below.
Browse verified partsVerified batteries, controllers, goggles, propellers, and accessories mapped from Reboot Hub inventory for this model.
Mini research cluster
This page supports the research layer. Use the buying guide, live collection, and Reboot Hub trust pages to connect specs, compatibility, inspection evidence, warranty terms, and current inventory before choosing a unit.
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