MIK-RD902T Temperature and Pressure Resistant Radar Level Gauge Introduction: The MIK-RD902T radar level meter antenna emits extremely narrow microwave pulses, which propagate at the speed of light in space. When it encounters the surface of the measured medium, some of its energy is reflected back and received by the same antenna. The time interval between transmitting and receiving pulses is proportional to the distance from the antenna to the surface of the measured medium. Due to the extremely high propagation speed of electromagnetic waves, it is difficult to confirm the time interval between the transmitting and receiving masons (in the nanosecond range). The MIK-RD902T high-frequency radar level meter uses a special demodulation technology to accurately identify the time interval between the transmitting and receiving masons, thereby further calculating the distance from the antenna to the surface of the measured object. Technical parameters: Applicable occasions: Temperature resistant, pressure resistant, slightly corrosive liquids, anti steam crystallization Measurement range: 0-30 meters Accuracy: ± 3mm Frequency range: 26GHz Process temperature: -40-130 ℃ (standard type)/250 ℃ (high temperature type) Signal output: RS485/Modbus 4-20mA/Hart Process connection: threaded, flange Process pressure: 0.1-2.0Mpa
Introduction: The MIK-RD902T radar level meter antenna emits extremely narrow microwave pulses, which propagate at the speed of light in space. When it encounters the surface of the measured medium, some of its energy is reflected back and received by the same antenna. The time interval between transmitting and receiving pulses is proportional to the distance from the antenna to the surface of the measured medium. Due to the extremely high propagation speed of electromagnetic waves, it is difficult to confirm the time interval between the transmitting and receiving masons (in the nanosecond range). The MIK-RD902T high-frequency radar level meter uses a special demodulation technology to accurately identify the time interval between the transmitting and receiving masons, thereby further calculating the distance from the antenna to the surface of the measured object.
