L’imagerie thermique depuis les airs n’a jamais été aussi simple qu’avec la Zenmuse XT de DJI. En combinant l’expertise inégalée de DJI en matière de technologie pour nacelles et de transmission d’image avec la technologie d’image thermique de pointe FLIR, la Zenmuse XT est la solution ultime pour des prises de vues thermiques aériennes rapides et efficaces. Capturez des images plus rapidement, avec une extrême précision, sur de larges surfaces, et sauvegardez-les pour analyses et autres rapports.

Zenmuse XT

Introducing the DJI Zenmuse XT


ModelZenmuse XT
Dimensions103 mm x 74 mm x 102 mm
Weight270 g


Thermal ImagerUncooled VOx Microbolometer
FPA/Digital Video Display Formats
  • 640 × 512
  • 336 × 256
Analog Video Display Formats720 × 480 (NTSC); 720 × 576 (PAL)
Pixel Pitch17 μm
Spectral Band7.5 - 13.5 μm
Full Frame Rates
  • 640 × 512:30 Hz (NTSC) 25 Hz (PAL)

  • 336 × 256:30 Hz (NTSC) 25 Hz (PAL)

Exportable Frame Rates7.5 Hz NTSC; 8.3 Hz PAL
Sensitivity (NEdT)<50 mK at f/1.0
Scene Range (High Gain)
  • 640 × 512:-13° to 275°F (-25° to 135°C)
  • 336 × 256:-13° to 212°F (-25° to 100°C)
Scene Range (Low Gain)-40° to 1022°F (-40° to 550°C)
Spot Meter Temperatures measured in central 4×4
File StorageMicro SD Card
Photo FormatJPEG, TIFF
Video FormatMP4


Operating Temperature Range14° to 104°F (-10° to 40 ℃)
Non-Operating Temperature Range-22° to 158°F (-30° to 70 ℃)
Temperature Shock5 ℃/min
Humidity5% to 95%


Angular Vibration Range±0.03°
Controllable RangeTilt:+35° to -90°; Pan:±320°; Roll:±15°
Mechanical RangeTilt:+45° to -135° Pan:±320° Roll:±45°
Max Controllable Speed120°/s

Image Processing & Display Controls

NTSC/PAL (field switchable)yes
Image Optimizationyes
Digital Detail Enhancementyes
Polarity Control (black hot/white hot)yes
Color & Monochrome Palettes (LUTs)yes
Digital Zoom
640 × 512:

  2x, 4x, 8x


336 × 256:

  2x, 4x

Lens Models

Lens Models6.8 mm7.5 mm9 mm13 mm19 mm
17μ 640×512 FoV
/ f/1.4
90° x 69°
2.267 mr
69° x 56°
1.889 mr
45° x 37°
1.308 mr
32° x 26°
0.895 mr
17μ 336×256 FoV
49.1° x 37.4°
2.519 mr
/ f/1.25
35° x 27°
1.889 mr
25° x 19°
1.308 mr
17° x 13°
0.895 mr
Min Focus Distance2.3 cm2.5 cm3.2 cm7.6 cm15.3 cm
Hyperfocal Distance1.2 m1.2 m2.1 m4.4 m9.5 m
Hyperfocal Depth of Field0.6 m0.6 m1.1 m2.2 m4.8 m
Introducing the DJI Zenmuse XT
Introducing the DJI Zenmuse XT


  • Zenmuse XT Firmware V1.24.0.10 (Inspire 1)
  • Zenmuse XT Firmware V1.24.0.10 (Matrice 100)
  • Zenmuse XT Firmware V1.24.0.10 (Matrice 600)
  • Zenmuse XT Firmware (gamme Matrice 200)

Documents & Manuals

  • Zenmuse XT Notes de version (EN)
  • Zenmuse XT Guide d'utilisateur (EN)
  • Zenmuse XT Guide de démarrage rapide
  • Radiometry Technical Note
  • Zenmuse XT Avertissements et consignes de sécurité
1. Infrared Camera can take thermal images;
2. The aperture of Infrared Camera is bigger and the scale of hyperfocal distance is larger;
3. The thermal imaging of Infrared Camera can clear distinguish targets at night;
The lens of XT is prime lens, and the fixed focus is infinity.
The camera is able to support digital zoom.
The aperture and shutter cannot be adjusted.
Yes, the camera is able to take TIFF images and video recording simultaneously.
The flight time of TB47 is 17 minutes and the flight time of TB48 is 21minutes (test environment: wind power 1-2 level; temperature: 16 degrees) .
Inspire 1 Series aircrafts and Matrice Series aircrafts.
No, the filter cannot be installed on the ZENMUSE XT Camera.
No, Zenmuse XT's camera and lens are integrated.
Yes, the camera will come with a 16G SD card, it can supports the FAT format SD card with storage volume up to 32G.
Digital Detail Enhancement, it can increase the image detail and it is similar to acuteness that enhance the image's sharpness.
Smart Scene Optimization, it is similar to sensitometry. After strating, it can better distinguish the temperature difference.
The Infrared Camera is limited to the technical issues and costing, therefore the lens' resolution of 640 × 512 has already situated in the industry-leading position.
No, it does not.
Its video format is MP4.
Palette provides different colour choices for different applications. Users can choose the appropriate colour mode according to their demands.
User can choose different scene modes according to different applications. The built-in AGC (automatic gain control) function will automatically adjust the contrast ratio and photometric brightness due to the modes.
Region Growth Algorithm, user can adjust the mode to remove the sky part (low temperature) in the scene to enable the scene concentrates on the objects on the ground.
Isotherm Mode provides three threshold values that enable user to observe the areas with different temperatures clearly. User can define the three threshold values to modify the isothermal lines and the temperature difference will be easier to be observed in different colours.
TIFF is a computer file format, called Tagged Image File Format, and the file extension is TIF or TIFF. TIFF (Tag Image File Format) is a kind of graphic format in Macintosh. Its graphic format is complex and TIFF can store more information.
Tiff format image can be edited in PhotoShop, Lightroom and other professinal softwares, or use MATLAB to process the image's data.
The TIFF format images will store 14-bit raw data, the temperature can be obtained by multiplying a coefficient to this data.
The temperature measurement range of:
1.High Gain version: -40℃ to +160℃
2.Low Gain version: -40℃ to +550℃
In another word, the Low Gain version camera has wider measurement range, but lower accuracy than the High Gain version.
1. The object's reflectivity, as the reflective metal surface has high reflectivity that will cause lower measured temperature;
2. The temperature of the radiation background, the influence will be small if there is no clouds, otherwise it will bring great influence in temperature measurement.
3. The influence from the air factors including temperature and humidity. The higher these two factors, the easier to affect the temperature measurement of the object and lead to low accuracy.
4. The thickness of the air, also the distance from the camera to the measured object. The further the distance, the greater the influence from the air, and less the accuracy of the measurement.
This image format corresponds to the software FLIR Tools (produced by FLIR Company), which allows the original temperature information in the R-JPEG image to be analysed. Meanwhile, the R-JPEG images can also be viewed as the usual JPEG format images.
Flir Tools Download Address: http://www.flir.com/instruments/display/?id=54865

Slow-rate thermal cameras (FLIR Tau 336 and 640 9 Hz models) sold by DJI are controlled under Department of Commerce, Bureau of Industry and Security Export Control Classification Number (ECCN) 6A993. These cameras may not be exported or re-exported to countries subject to U.S. economic sanctions, currently including Cuba, Iran, North Korea, Sudan, Syria, or the Crimea region of Ukraine. The cameras may not be transferred to prohibited parties or exported for a prohibited end use, as described in the U.S. Export Administration Regulations (EAR, 15 C.F.R. Parts 730 – 774).  

Full-rate thermal cameras (FLIR Tau 336 and 640 30 Hz models) sold by DJI are controlled for export under ECCN 6A003.b.4.b.  These cameras may not be exported or re-exported to any country other than Canada without authorization from the U.S. government (in the form of a license or through use of a valid license exception).  The cameras may not be transferred to prohibited parties or exported for a prohibited end use, as described in the EAR.  

For additional information regarding export restrictions applicable to these products, consult the EAR and the various sanctions regulations administered by the U.S. Department of Treasury’s Office of Foreign Assets Control (31 C.F.R. Parts 501 – 598).