Windcube 100S/200S/400S laser radar 3D long-range scanning Doppler laser wind measurement radar is based on the principle of laser pulse Doppler frequency shift. By measuring the Doppler frequency shift generated by the backscatter echo signal of air particles, it can invert wind speed and direction information, obtain real-time wind field data with high spatiotemporal resolution, high accuracy, and multiple heights.

LEOSPHERE has launched three Doppler wind lidar systems that can provide wind field measurement information within a range of 3 km (WINDCUBE 100s), 6 km (WINDCUBE 200s), and 10 km (WINDCUBE 400s) from the system.

application area

lAirport air traffic navigation- Sky meteorological detection of wind shear, microburst, low-level jet stream, clear sky turbulence, wake vortex, etc

lWind energy utilization- Wind farm site selection and windmill power curve calibration

lair pollution- Monitoring of pollution source tracking, plume dispersion, etc

lIndustrial safetyMonitoring of pollutant diffusion in chemical plants/nuclear power plants

lAtmospheric research- Boundary layer dynamics, boundary layer structure, and height detection

lMeteorological climate- Establishment of a mesoscale atmospheric monitoring network, monitoring and research of atmospheric conditions

Product Features

lAdopting advanced pulsed lasers

lCompact and lightweight structure, easy to transport and install, low maintenance cost

lThe system is lightweight, stable, and can achieve unmanned operation

lOutdoor quick installation and startup

lHigh spatiotemporal resolution wind measurement data (3D wind field map), accurate and reliable data

lCan adapt to various harsh environments,IP65 protection level (waterproof, salt spray corrosion resistance)

lFlexible system monitoring software