Dual cable radar level gauge

lprinciple

The high-frequency microwave pulses emitted by the guided wave radar propagate along the detection component (steel cable or steel rod) and encounter the measured medium. Due to a sudden change in dielectric constant, reflection occurs, and a portion of the pulse energy is reflected back. The time interval between the emitted pulse and the reflected pulse is proportional to the distance of the measured medium.

lcharacteristic

Due to the use of advanced microprocessors and unique featuresEchoDiscovery echo processing technology and guided wave radar level gauges can be applied to various complex working conditions.

Multiple process connection methods and types of detection components enableThe 31X series guided wave radar level gauge is suitable for various complex working conditions and application scenarios. Such as high temperature, high pressure, and low dielectric constant media.

Adopting a pulse working mode, the guided wave radar level gauge has an extremely low transmission power and can be installed in various metal and non-metal containers without causing harm to the human body and the environment.

ldescribe

Guided wave radar is a measuring instrument based on the principle of time travel. Radar waves travel at the speed of light, and the travel time can be converted into level signals through electronic components. The probe emits high-frequency pulses and propagates along the cable or pole probe. When the pulse encounters the surface of the material, it is reflected back and received by the receiver inside the instrument, which converts the distance signal into a level signal.