Drone DJI P4 Multispectral
🔵 Monitoring and inspection of the environment
🔵 A new beginning for intelligent agricultural missions: Plan flights, Collect data, Analyze available data, Act on data taken
🔵 Watch both RGB and NDVI video streams at the same time
🔵 Accuracy to the nearest centimeter
🔵 Built-in spectral solar sensor for more accurate results
🔵 Peek below the surface
🔵 Be aware of the health of your crops at all times
In Stock
6135.45 € 5112.88 € ex. Tax
In Stock
Drone DJI P4 Multispectral
Intelligent survey of agricultural crops with a professional drone
Now with DJI P4 Multispectral, you now have the opportunity to gather information about your crops more carefully and accurately with a unique professional drone. This is possible thanks to the Phantom 4 Multispectral – a new generation precision drone that has a built-in multispectral imaging system, designed precisely for agricultural missions, environmental monitoring, etc.
Be aware of the health of your crops at all times through the information from the smart spectral picture
The drone integrates the process of collecting data that gives an idea of crop health. Based on the Phantom 4, this platform has the same powerful operating standards that it is known around the world. This includes a maximum flight time of 27 minutes and up to 7 km1 transmission range with the OcuSync system. The machine will offer you new discoveries and opportunities for growing crops, for tracking them, for a thorough and quick aerial inspection.
Peek below the surface and beyond
Equipped with different cameras for each spectrum, the images taken give a very clear idea of the state of the crops. And the collection of photos of agricultural areas is simpler and more efficient than ever through the built-in system and application. This is due to the built-in image stabilization system, which collects sufficiently comprehensive data directly at the live survey location. Access information collected from a total of 6 cameras – 1 RGB camera and a 5-camera multispectral system covering wavelengths in the blue ( B ), green ( G ), red ( R ), Red Edge ( RE ) and Near-Infrared ( NIR ) spectrum – all with 2 MP resolution, global shutter and 3- axis stabilization.
Built-in spectral solar sensor for more accurate results
The built-in spectral solar sensor, located on top of the drone, captures solar radiation, increasing the accuracy of data collection at different stages of the day. When these data are combined with those already processed, the information helps to achieve the most accurate NDVI results and to offer sufficient information on the current state of the crops.
The information flow is organized and always available at any time and live
Watch both RGB and NDVI video streams at the same time
For any professional who wants to know more, the RGB spectrum is not enough. By switching between NDVI and RGB live video streaming, a sudden visualization can take place where attention needs to be paid. In this way, a quick and adequate decision can be made. This option saves a lot of time in the manual ground inspection. Not only fast information retrieval but also thorough.
Perfect accuracy
The system allows you to get accurate real-time positioning data from images captured with the 6 cameras and DJI’s TimeSync system, which provides accurate measurements to the nearest centimetre. The TimeSync system constantly synchronizes the flight controller, RGB cameras, NB cameras and the RTK module. Thus, the positioning data is fixed to the centre of the CMOS sensors. In this way, each photo certainly uses the most accurate metadata. All cameras go through a careful and rigorous calibration process, where the radial and tangential distortions of the lenses are measured. The collected lens distortion parameters are stored in the metadata of each image, allowing post-processing software to be adjusted individually.
Compatibility between D-RTK 2 mobile station and NTRIP
You can increase the accuracy of RTK positioning without an Internet connection by connecting the Phantom 4 Multispectral drone to the D-RTK 2 mobile station with a high-precision GNSS receiver and NTRIP (Network RTCM over IP)2 or storing satellite monitoring data as they can be used for post-processing kinematics (PPK).
A new beginning for intelligent agricultural missions
Plan flights
Plan flights, perform automated missions and manage flight data using DJI Ground Station Pro (DJI GS Pro) – DJI’s leading iOS flight planning application.
Collect data
Using the Phantom 4 Multispectral drone, you will easily and efficiently collect multispectral photos from large areas and have a view of problem areas.
Analyze the available data
You can easily access and process data by adding specific parameters and indicators for crop production to achieve the desired information on crop health.
Act according to the collected data
Implement planned operations for terrain that needs attention through accurate information taken from the drone.
Applications
Precise agriculture
During all seasons of vegetation, multispectral imaging can help professionals by providing information beyond the electromagnetic spectrum that is invisible to the human eye. With access to this information and subsequent data on the vegetation index such as NDRE and NDVI, farmers can make timely and informed decisions about crop processing, cost reduction, resource savings and increased yields.
Environmental monitoring and inspection
Routine plant inspections can be made smarter and more efficient with the use of the Phantom 4 Multispectral drone. Use effective multispectral data to monitor forest health, measure biomass, map coastlines or manage coastal vegetation while protecting habitats and ecosystems.
- БUnobstructed, no interference, FCC compliant. The maximum range depends on the strength and stability of the radio connection. Always pilot the drone with a good line of sight, unless otherwise permitted.
- To connect to NTRIP, use an iPad that has an Internet connection with an SDK remote control.
Drone DJI Phantom 4 Multispectral | |
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Weight | 1487 grams |
Diagonal | 350 mm |
Maximum take-off altitude ( above sea level ) | 6000 m |
Maximum lifting speed | 6 m/s ( automatic flight ); 5 m/s ( manual control ). |
Maximum descent speed | 3 m/s |
Maximum speed | 50 км/ч (P-mode) 58 км/ч (A-mode) |
Maximum flight time | Approximately 27 minutes |
Work temperature | 0° to 40℃ |
Operating frequency | 2.400 GHz – 2.483 GHz ( Europe, Japan, Korea ) 5.725 GHz – 5.850 GHz ( Other countries and regions ) |
Transmission power (EIRP) | 2.4 GHz: < 20 dBm (CE / MIC / KCC) 5.8 GHz: < 26 dBm (FCC / SRRC / NCC) |
Range of accuracy when circling | RTK is activated and functioning properly: Vertically: ±0.1 m; Horizontally: ±0.1 m. RTK is disabled Vertically: ±0.1 m ( with positioning system included ); ± 0.5 m ( with GNSS positioning ). Horizontally: ±0.3 m ( with GNSS positioning ); ±1.5 m ( with GNSS positioning ). |
Image shift | The position of the CMOS center of the six cameras and the phase center of the D-RTK antenna are calibrated and record the EXIF data for each image. |
GNSS | |
Single frequency, highly sensitive GNSS module | GPS + BeiDou + Galileo ( Asia ); GPS + GLONASS + Galileo ( Other countries and regions ). |
Multi-frequency, multi-system, high-precision RTK GNSS | Frequency of use GPS: L1/L2; GLONASS: L1/L2; BeiDou: B1/B2; Galileo: E1/E5 First fixed time <50 seconds Positioning accuracy: Vertical 1.5 cm + 1 ppm (RMS); Horizontal 1 cm + 1 ppm (RMS). 1 ppm indicates an error with an increase of 1 mm per 1 km. Speed accuracy: 0.03 m / s |
Mapping functions | |
Ground Sample Distance (GSD) | (H/18.9) cm/pixel. H indicates the height of the drone relative to the mapped area. |
Data acquisition speed | The maximum working area is approximately 0.47 km2 for one flight at 180 meters above sea level, ie. GSD approximately 9.52 cm / pixel |
Stabilizing stand | |
Range | Tilt: -90° to +30° |
Positioning system | |
Speed | ≤50 km/h at 2 m above the ground with appropriate lighting |
Height range | 0 – 10 m |
Working range | 0 – 10 m |
Obstacle detection range | 0.7-30 m |
Working environment | Surfaces with a clear pattern and adequate lighting (> 15 lux) |
Camera | |
Sensors | Six 1 / 2.9 ″ CMOS sensors, including one RGB sensor for visible light images and five monochrome multispectrum image sensors. Each sensor: Effective pixels 2.08 MP (2.12 MP in total). |
Filters | Blue (B): 450 nm ± 16 nm; Green (G): 560 nm ± 16 nm; Red (R): 650 nm ± 16 nm; Red edge (RE): 730 nm ± 16 nm; Near-infrared (NIR): 840 nm ± 26 nm |
Lenses | FOV 62.7° Focal length: 5.74 mm (35 mm equivalent: 40 mm); autofocus on ∞ Aperture: f/2.2 |
RGB sensor ISO range | 200 – 800 |
Monochrome Sensor Gain | 1 – 8x |
Electronic shutter | 1/100 – 1/20000 s ( images with visible light ); 1/100 – 1/10000 s ( multispectral images ) |
Image resolution | 1600×1300 (4:3.25) |
Image format | JPEG (Visible Light Images) + TIFF (Multispectral Images) |
Supported file system | FAT32 (≤ 32 GB) exFAT (> 32 GB) |
Supported SD cards | MicroSD with a minimum write speed of 15 MB / s, max. Capacity: 128 GB, class 10 or UHS-1. |
Work temperature | 0° – 40℃ |
Remote control | |
Operating frequency | 2.400 GHz-2.483 GHz ( Europe, Japan and Korea ) 5.725 GHz-5.850 GHz ( Other countries and regions ) |
Transmitter power (EIRP) | 2.4 GHz: < 20 dBm (CE / MIC / KCC) 5.8 GHz: < 26 dBm (FCC / SRRC / NCC) |
Range | FCC / NCC: 7 km CE / MIC / KCC / SRRC: 5 km ( without obstacles and signal interference ) |
Built-in battery | 6000 mAh LiPo 2S |
Operating current / voltage | 1.2 A @ 7.4 V |
Mobile device holder | Tablets and smartphones |
Work temperature | 0° – 40℃ |
Smart battery ( PH4 – 5870mAh – 15.2V ) | |
Capacity | 5870mAh |
Tension | 15.2V |
Type | LiPo 4S |
Power | 89.2 Wh |
Weight | 468 грама |
Work temperature | -10° до 40℃ |
Charging temperature | 5° до 40℃ |
Max. charging power | 160W |
Intelligent battery charging hub | |
Tension | 17.5 V |
Work temperature | 5° -40℃ |
Power Charger (PH4C160) | |
Tension | 17.4V |
Power | 160W |
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