Analysis of Differences between Wi-Fi 6E and Wi-Fi 6 Modules
Wi-Fi 6E is an upgraded version of Wi-Fi 6, introducing an additional 6GHz frequency band. Compared to Wi-Fi 6, Wi-Fi 6E offers significant differences and advantages in several aspects.
Firstly, in terms of spectrum utilization, Wi-Fi 6E makes full use of the additional spectrum in the 6GHz frequency band. In comparison to the 2.4GHz and 5GHz frequency bands of Wi-Fi 6, Wi-Fi 6E provides more available channels, increasing network capacity and reducing interference, thereby delivering superior wireless performance.
Secondly, in terms of speed, Wi-Fi 6E achieves higher data transmission rates by utilizing a wider spectrum. Users can enjoy faster download and upload speeds, particularly when using devices and routers that support Wi-Fi 6E, resulting in an enhanced user experience.
Additionally, Wi-Fi 6E has an advantage in reducing interference. Operating in the 6GHz frequency band, Wi-Fi 6E experiences less interference compared to the congested 2.4GHz and 5GHz frequency bands. This translates to more stable connections and improved performance, especially in high-density network environments.
Moreover, Wi-Fi 6E offers increased capacity. By expanding the available spectrum, Wi-Fi 6E supports a greater number of devices simultaneously, meeting the demands of high-density user scenarios. This is particularly beneficial in situations with a large number of devices or in densely populated public areas relying on Wi-Fi.
The image is sourced from Ofeixin Technology’s Wi-Fi 6E Module Real Shot (3000Mbps)
The image is sourced from the schematic diagram of Ofeixin Technology’s Wi-Fi 6E module
The image is sourced from the design diagram of Ofeixin Technology’s Wi-Fi 6E module
It is important to note that the availability and applicability of Wi-Fi 6E depend on local regulations and spectrum policies. While it has been approved and adopted in some countries and regions such as the United States and Europe, other areas may need to wait for relevant regulations and spectrum allocation.
