The Sniffer4D Ultrasonic Wind Speed and Direction Sensing Module delivers unparalleled real-time capture of critical meteorological data, including temperature, humidity, atmospheric pressure, wind speed, and wind direction. Built-in algorithms for translational, attitude, and rotational motion compensation ensure accurate wind speed and direction outputting, even during drone flight, providing precise and reliable meteorological measurements. With the advanced sensing module, you can gather critical data to support informed decision-making, no matter the conditions.
The Sniffer4D Ultrasonic Wind Speed and Direction Sensing Module offers real-time capture of critical meteorological data, including temperature, humidity, atmospheric pressure, wind speed, and wind direction, when connected to Sniffer4D V2 and multi-rotor UAVs. With the ability to measure wind speed and direction from a 3D perspective, our advanced sensing module provides unparalleled accuracy in gas diffusion analysis, fire spreading monitoring, and vertical scanning. This system significantly improves upon the inadequacy of near-ground detection, providing valuable insights and added value in a range of applications, including ambient air monitoring, HAZMAT response, wind power plant management, scientific research, and more.
Efficient Response & Deployment
Based on the ultrasonic detection method, the externally-mounted wind sensing module is lightweight with no moving parts.
It has no limitation on start-up wind speed and does not require any adjustments before missions.
The seamless Integration with DJI M300 RTK/M210 RTK and Plug & Play using an XT30 cable or a Type-C cable significantly reduce the preparation time before flights.
Meteorological Monitoring
Measurement Method: Ultrasonic Wave
Power Supply: 9-36V DC input through XT30 port
Connection: Connecting USB Type-C cable to “Ext.lstm.” port of Sniffer4D V2
Atmospheric Pressure Measurement
Accuracy: ±0.1m/s(0-10m/s) ±1%(11-30m/s) ±2%(31-50m/s)
Resolution: 0.1m/s
Resolution: 0.1℃
Wind Direction Measurement
