WSR300 high-precision intelligent radar level meter Introduction: This radar level gauge is a frequency modulated continuous wave (FMCW) radar product that operates at (60-64) GHz. It can perform non-contact continuous measurement of the height of liquids in closed or open containers during industrial production processes. This radar level gauge has a long detection distance and low beam energy, and can be installed in various metal, non-metal containers or pipelines. The radar level gauge is harmless to both the human body and the environment, and has the advantages of not being affected by the specific gravity of the medium, not being affected by changes in dielectric constant, and not requiring on-site calibration. Features: 1. Integrated lens design, compact size: The display control and liquid level gauge adopt a separate design and can be customized 2. Powerful: Small blind spots, high measurement accuracy, and high resolution. 3. Maintenance free and convenient operation: supports remote maintenance, OTA can be accessed remotely, manages radar, and supports Bluetooth debugging function for remote upgrades. Technical parameters: Tested variable: liquid level Measurement range: 0.1m~30m Modulation waveform: FMCW Transmission frequency: 60GHz~64GHz Blind spot: ≤ 0.10m Beam angle: ± 6 º Accuracy: ± 3mm Resolution: ± 1mm Response time: 500ms Protection level: IP67 Communication output: RS485/Bluetooth Power supply voltage: (9-36) VDC Power consumption: ≤ 1W Cable: 7 * 0.3mm ² Dielectric constant: ≥ 1.5 Process pressure: (-0.1~0.6) MPa Process temperature: (-40~85) ℃
Introduction: This radar level gauge is a frequency modulated continuous wave (FMCW) radar product that operates at (60-64) GHz. It can perform non-contact continuous measurement of the height of liquids in closed or open containers during industrial production processes. This radar level gauge has a long detection distance and low beam energy, and can be installed in various metal, non-metal containers or pipelines. The radar level gauge is harmless to both the human body and the environment, and has the advantages of not being affected by the specific gravity of the medium, not being affected by changes in dielectric constant, and not requiring on-site calibration.
