Microwave Pulse 80 GHz Radar Level Transmitter Selection Instructions

Microwave pulse radar level gauge, as an advanced liquid level measurement technology, is widely used in various industries. When choosing the right 80 GHz Radar Level Transmitter manufacturers, there are several factors to consider. This article will provide readers with the key points for selecting an 80 GHz Radar Level Transmitter, focusing on the measured medium, medium temperature, working pressure, power supply method, measurement range, connection method, and output signal.

1. Measured medium:

First, the nature of the medium to be measured needs to be clarified. Microwave pulse radar level gauge is suitable for measuring various liquid and solid media, including water, oil, chemicals, etc. However, for different media, different materials and protective measures may need to be selected to ensure the stability and corrosion resistance of the liquid level gauge.

2. Medium temperature:

Medium temperature is one of the important considerations in the selection process. Determine the high and low temperature range of the medium, and select an 80 GHz Radar Level Transmitter that works normally within the corresponding temperature range. For high temperature media, it may be necessary to use a level gauge with a cooling system or special materials.

3. Work pressure:

Consider the working pressure of the medium being measured. In a high-pressure environment, it is necessary to choose a pulse radar level gauge with high pressure resistance. At the same time, the connection method between the liquid level gauge and the container must also be considered to ensure safety and reliability.

4. Power supply method:

Radar level gauges can work with different power supplies, such as AC power or DC power. Choose the appropriate power supply method according to actual needs and site conditions, and ensure stable and reliable power supply.

5. Measuring range:

Determine the liquid level range required to be measured. Different Microwave pulse radar level gauges have different measurement ranges, usually between a few meters and tens of meters. Choose a liquid level gauge with an appropriate range according to process requirements to ensure measurement accuracy and reliability.

6. Connection method:

Pulse Radar Level Transmitter manufacturers can adopt different connection methods, such as flange connection, threaded connection, etc. Choose the appropriate connection method according to the actual application scenario and pipeline structure, and ensure that the connection is tight and reliable to prevent leakage.

7. Output signal:

The output signal of microwave pulse radar level gauge is usually an analog signal (such as 4-20mA) or a digital signal (such as RS485 communication protocol). According to actual needs, select the appropriate output signal type and be compatible with the on-site control system.

When selecting an 80 GHz Radar Level Transmitter, factors such as the measured medium, medium temperature, working pressure, power supply method, measurement range, connection method, and output signal need to be comprehensively considered. Ensure that the selected liquid level meter can adapt to the actual application environment, provide accurate and reliable liquid level monitoring data, and help companies achieve precise process control. At the same time, it is recommended to communicate and consult with professional 80 GHz Radar Level Transmitter manufacturers to obtain more detailed technical support and ensure selection decisions.