Wind3D 10K 3D Scanning Wind Lidar is based on the optical pulse coherence Doppler frequency shift detection principle, enabling fine detection of the three-dimensional wind field in the troposphere.
Equipped with a high-pointing accuracy optical scanning mirror, it can realize three-dimensional scanning detection functions (DBS/VAD/PPI/RHI/CAPPI fixed-point scanning modes), with a detection radius of up to 12 km in the basic version.
Leice specially developed lidar three-dimensional scanning, aircraft downhill scanning, wind profile scanning, multi-lidar network scanning and other detection modes. It not only accurately detects low-altitude wind shear, achieving rapid identification and effective early warning to ensure aviation safety, but also efficiently detects aircraft wake vortices, optimizes flight intervals, and improves operational efficiency. We are committed to providing users with comprehensive, professional, and customized solutions and services.
High accuracy
High range detection
Multiple scanning modes
High resolution
Flexible deployment
Unmanned operation
Strong robustness
Eye-safe
| Laser Wavelength 1550nm | Maximum Detection Distance 12000m | Spatial Resolution 15m/30m/60m/150m(configurable) | Time Resolution 1s~10min(configurable) |
| Wind Speed Measurement Accuracy ≤0.1m/s | Wind Direction Measurement Accuracy ≤3° | Scanning Modes Fixed Point/DBS/VAD/PPI/RHI/CAPPI Script Programming | Weight <125kg |
Radial wind speed, spectral width, spectral intensity, carrier-to-noise ratio, horizontal wind speed, horizontal wind direction, vertical airflow, wind shear, aircraft descent path wind shear and wake detection and early warning, aerosol backscattering intensity, extinction coefficient, boundary layer height, cloud base height, 3D flow field analysis, GNSS location and time, lidar status data, ground atmospheric temperature, humidity, and atmospheric pressure data.
Airport Atmospheric Visibility Monitoring
Low Altitude Wind Shear Monitoring and Early Warning
Aircraft Wake Vortex Detection
Air Quality Improvement and Management in Key Regions
Fine Traceability of Atmospheric Particulate Matter Pollution
Analysis of Atmospheric Pollution Causes
Early Fire Warning
Meteorological Support for Fire Emergency Rescue
Structural Wind Engineering Observation and Construction Support
Wind Measurement Network in Complex Terrain
Integrated Meteorological Observation and Service Platform
Refined Meteorological Observation and Forecasting
Precise Inversion of Wind Turbine Wake Flow Field and Wind Farm Layout Optimization
Wind Power Prediction
