SZRD-6000 Doppler radar flowmeter Introduction: The universal Doppler radar flowmeter is a multi-point and multi-level flow velocity analyzer for signal processing. Its characteristic is that it can be installed on the side or top of the measured river or channel as needed, and the installation method can be set arbitrarily according to the site situation, so as to measure multiple flow velocity values within the range of the installed radar fan, and calculate the average flow velocity based on multiple flow velocity data. Then, by integrating the on-site water level mapping, the flow rate of various regular or irregular fluid cross-sections in rivers can be calculated. Greatly simplifies the traditional flow measurement methods in water conservancy. characteristic: 1. Small size, easy to install, suitable for harsh and harsh environments. 2. High precision, fully utilizing the high-precision range of the equipment for calibrating water flow velocity. 3. Stable performance 4. Low energy consumption, can be powered by solar cells. 5. The interface has diverse functions and is compatible with network connection solutions. 6. Can provide users with a comprehensive solution. Technical parameters: Measurement distance: 0.3-30 meters Measurement range: 0.1-25m/s Resolution: 0 1mm/s Measurement accuracy: ≤ 2% Start time: 2 seconds Data update cycle: 1 second Transmission frequency: 24GHz (K-band) Transmission power: 26dBm Communication interface: RS-232/RS-485 Baud rate: 115200 (default) Power supply: 12V Power consumption of the whole machine: 1.75W Working temperature: -35 ℃ -70 ℃ Storage temperature: -40 ℃ -85 ℃ Radar size: 118 × 118 × 60 Shell material: metal composite material Protection level: IP68
Introduction: The universal Doppler radar flowmeter is a multi-point and multi-level flow velocity analyzer for signal processing. Its characteristic is that it can be installed on the side or top of the measured river or channel as needed, and the installation method can be set arbitrarily according to the site situation, so as to measure multiple flow velocity values within the range of the installed radar fan, and calculate the average flow velocity based on multiple flow velocity data. Then, by integrating the on-site water level mapping, the flow rate of various regular or irregular fluid cross-sections in rivers can be calculated. Greatly simplifies the traditional flow measurement methods in water conservancy.