XH TOWER strictly implements GB8702-2014 "Electromagnetic Environment Control Limits", and the measured value of the base station antenna radiation power density is ≤0.08W/m² (only 40% of the national standard limit).
By optimizing the antenna tilt angle (electronic downtilt angle 0-15° adjustable) and vertical lobe width (6°-90°), the radiation value 10 meters away from the ground is ensured to be attenuated to below 0.01W/m².
By optimizing the antenna tilt angle (electronic downtilt angle 0-15° adjustable) and vertical lobe width (6°-90°), the radiation value 10 meters away from the ground is ensured to be attenuated to below 0.01W/m².
For residential sites, XH TOWER can also provide a real-time radiation monitoring data disclosure platform, where users can scan the code on their mobile phones to view dynamic radiation values and eliminate public concerns.
Geological requirements for signal towers focus on the soil and subsurface conditions to ensure structural stability. A geotechnical study, including a soil test and boring logs, is mandatory to determine the site's ability to support the tower and withstand environmental forces like wind and earthquakes. The investigation assesses foundation rock types, groundwater levels, and slope stability to inform the appropriate design for the tower's footing and overall structure. Geological requirements for signal towers focus on the soil and subsurface conditions to ensure structural stability. A geotechnical study, including a soil test and boring logs, is mandatory to determine the site's ability to support the tower and withstand environmental forces like wind and earthquakes. The investigation assesses foundation rock types, groundwater levels, and slope stability to inform the appropriate design for the tower's footing and overall structure.
