Understanding the Challenges and Solutions in the 5G Era
With the advent of the 5G era, the market is now flooded with various types of 5G signal blockers. However, during the process of upgrading and replacing old shielding devices, many customers have reported that the shielding effectiveness against 5G signals is not as satisfactory as it was for 3G and 4G signals. This raises the question of why some locations exhibit poor shielding performance and what methods can be employed to enhance the effectiveness of 5G full-band signal blockers.
The Development of 5G:
To understand the current state of 5G development, it is important to consider publicly available technical information and data released by different network operators. It is evident that the power of 5G communication base stations is significantly higher than that of 3G and 4G base stations. 5G utilizes high-frequency bands greater than 2.5GHz, which have wider bandwidth but weaker diffraction capabilities, resulting in shorter transmission distances. Consequently, the construction density of 5G base stations is much higher than before.
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Challenges in Shielding 5G Signals:
The increased transmission power and density of 5G base stations have undoubtedly improved the stability and reliability of 5G experiences for mobile phone users. However, these advancements have also posed challenges for 5G full-band signal blockers in effectively shielding 5G signals. This is why some customers have noticed a decline in shielding effectiveness compared to previous generations.
Methods to Enhance Shielding Effectiveness:
Firstly, it is crucial to understand that signal shielding is essentially power suppression, and the effectiveness depends on the strength of the emitted signal power. Therefore, customers can request the manufacturers of 5G full-band signal blockers to ensure or even enhance the emission power of the 5G frequency band. This step is essential in achieving optimal shielding performance.
Additionally, when selecting 5G signal blockers, it is important to carefully consider the number of 5G shielding modules installed in the device. Generally, the more shielding modules dedicated to 5G and the finer the frequency division, the better the final shielding effectiveness will be. Customers can also approach manufacturers of 5G full-band signal blockers to customize high-power shielding modules specifically designed for the 5G frequency band.
Conclusion:
As the 5G era progresses, the demand for effective signal blockers becomes increasingly important. Understanding the challenges posed by the higher power and density of 5G base stations is crucial in addressing the decline in shielding effectiveness. By requesting higher emission power and selecting devices with more dedicated 5G shielding modules, customers can enhance the shielding effectiveness of 5G full-band signal blockers. This will ensure a seamless and reliable 5G experience while mitigating potential interference.