26G Radar Level Gauge Product Overview

The 80X series sensors are 26G high-frequency radar level gauges, capable of measuring distances up to 80 meters. The antenna has been further optimized, and the new rapid microprocessor enables faster signal analysis processing, allowing the gauge to be used in complex measurement conditions such as reaction vessels and solid material silos.

26G Radar Level Gauge Product Principle

The radar level antenna emits a narrow microwave pulse, which is transmitted downward through the antenna. When the microwave contacts the surface of the medium being measured, it is reflected back and then received again by the antenna system. The signal is then transmitted to the electronic circuitry, which automatically converts it into a level signal (since the propagation speed of microwaves is extremely fast, the time it takes for the electromagnetic wave to reach the target, reflect, and return to the receiver is almost instantaneous).

A Range Setting B Low Adjustment C High Adjustment D Blind Area Range

The reference surface for measurement is: the threaded bottom surface or the sealing surface of the flange.

Note: When using radar level timing, ensure that the material level does not enter the measurement blind area (as shown in area D in the diagram).

26G Radar Level Gauge Features:

Small antenna size for easy installation; non-contact radar, no wear.

virtually unaffected by corrosion and foaming; almost immune to changes in humidity, temperature, and pressure in the atmosphere.

The severe dust environment has little impact on the operation of the high-frequency level gauge.

Shorter wavelength, better reflection on inclined solid surfaces.

Beam angle is small, energy is concentrated, enhancing echo capability while also benefiting in avoiding interference objects.

The measurement blind spot is smaller, resulting in good measurement results even for small containers.

High signal-to-noise ratio, delivering superior performance even under fluctuating conditions.

High frequency is the preferred choice for measuring solids and materials with low dielectric constants.