Microwave-Powered Vigilance: FT-SDJB1's Precision in Transmission Line Icing Detection

As a crucial component of the power system, transmission lines undertake the important task of efficiently transmitting the electrical energy generated by power plants to various regions. By constructing a vast transmission network, electrical energy can travel over long distances to meet the electricity demands of different users. However, in cold climate conditions, transmission lines are prone to icing problems. Icing will increase the weight of the lines, causing an imbalance in the force on the pylons, and may even lead to serious accidents such as tower collapse and line breakage. It will also cause the lines to dance, damaging equipment such as insulators and fittings, which seriously threatens the safe and stable operation of the power system.

In order to effectively deal with the hazards caused by the icing of transmission lines, icing monitoring work must be well done. The Ice Monitoring Equipment for transmission lines based on microwave detection technology has emerged at the right time. The microwave detection technology works by emitting microwave signals, using the interaction between microwaves and ice cover, and analyzing the changes in signals such as reflection and scattering, so as to achieve non-contact monitoring of the ice cover status. It has the advantages of high detection accuracy and being less affected by the environment.

FT-SDJB1 is a product of Ice Monitoring Equipment for transmission lines. It can not only accurately monitor the icing situation and ice cover thickness of transmission lines, but also integrates a variety of monitoring functions. It can measure environmental parameters such as wind speed, wind direction, temperature, humidity, atmospheric pressure, optical rainfall, and total radiation in real time. The system is powered by solar energy and is equipped with lead-acid batteries, offering users various specifications such as 30W 20AH, 50W 40AH, and 100W 100AH to choose from. With a charging controller, it can meet the climate conditions of different regions and the power consumption requirements of monitoring points.

By monitoring the ice cover and environmental data in real time, it can help operation and maintenance personnel promptly grasp the status of the lines, take preventive measures in advance, reduce the risk of power accidents caused by icing, and is of great significance for ensuring the stable and efficient operation of the power system.