Highlights
High-precision LiDAR system with integrated RGB camera
Millimetre-level accuracy with DJI’s GNSS and IMU systems
Seamless integration with Matrice 300 and 350 RTK for efficient 3D mapping
Up to 5 returns per laser pulse for dense vegetation penetration
Detailed Specifications
Zenmuse L2
General
- Compatibility: DJI Matrice 300 RTK, Matrice 350 RTK
- Weight: Approx. 905 g
- IP Rating: IP54
Camera System
- 20 MP, 4/3 CMOS sensor, 24 mm equivalent lens, f/2.8-f/11 aperture, mechanical and electronic shutter
- JPEG, DNG photo format; 4K @ 30fps, FHD @ 30fps video
LiDAR
- Detection Range: 450m @50% reflectivity, 0 klx; 250m @10% reflectivity, 100 klx
- Point Cloud Rate: Single return: max. 240,000 pts/s; Multiple returns: max. 1,200,000 pts/s
- System Accuracy: Horizontal: 5 cm @ 150 m; Vertical: 4 cm @ 150 m
Features
- 3-axis stabilized
- 200 Hz IMU update frequency; 0.2° (real-time), 0.05° (post-processing) yaw accuracy; 0.05° (real-time), 0.025° (post-processing) pitch/roll accuracy
- FOV: Repetitive: Horizontal 70°, Vertical 3°; Non-repetitive: Horizontal 70°, Vertical 75°
Application Scenarios
Zenmuse L2
Features and Performances
High-Precision LiDAR Data
The Zenmuse L2’s advanced LiDAR sensor captures highly accurate point cloud data, enabling the creation of precise 3D models and digital terrain models (DTMs).
High-Resolution RGB Imagery
The integrated RGB camera captures detailed 20MP images, providing rich visual information that can be combined with LiDAR data for comprehensive analysis.
Enhanced Accuracy and Efficiency
The L2’s high-accuracy IMU system and advanced processing algorithms ensure precise data acquisition and efficient post-processing.
Superior Penetration
The L2’s LiDAR system offers improved penetration through vegetation, allowing for more accurate ground mapping in forested areas.
Seamless Integration
The Zenmuse L2 seamlessly integrates with DJI Matrice 300 RTK and Matrice 350 RTK platforms, as well as DJI Pilot and DJI Terra software, providing a streamlined workflow for data collection and processing.
