As Wi-Fi6 enters the public’s field of vision, many people worry about changing routers. In the market, ASUS, Netgear, Huawei, and TP-link familiar brand name products are all sold on major e-commerce platforms to support Wi-Fi 6 routing. Support for Wi-Fi 6 routing has advantages such as reduced latency and increased Wi-Fi speed. But some Wi-Fi 6 routing antennas have more antennas. Does this make the performance stronger?
In 1997, the first wireless local area network standard IEEE802.11 was born, a standard for wireless network communication defined by the International Society of Electrical and Electronic Engineering. At the same time, wireless routers were born. The wireless local area network standard ushered in a period of rapid update and iteration. The biggest change is the increasing number of antennas in routers, from the original one antenna to two, three, four, etc. . But why does the antenna of a wireless router change more and more?
MIMO (Multi-input Multi-output)technology has been supported for the wireless network field since IEEE802.11n updated in the year 2009. The MIMO technology allows multiple antennas to receive data at the same time, more data packets can be transmitted at a higher rate at the same time. The emergence of this technology has greatly improved and shortened the transmission time. From an antenna of 54 Mbit/s before, it becomes one of 150 Mbit/s today; besides, the rate is superimposed according to the number of antennas. This is very much like how we often say that people are powerful. So the more antennas, the better?
In 2012, the 802.11ac standard was updated and the router transmission rate was increased to a new high 433Mbit/s while supporting up to 8 splits, that is the transmission of eight front lines. They correspond to two different signals for the 2.4GHz signal and the 5 GHz signal. 2.4GHz has a wider coverage, but the signal easily interferes and the speed is relatively slow. The signal transmission speed of 5GHz is faster and is not easy to interfere with, but the signal penetration is slightly worse. In order to take into account the respective advantages of these two frequency bands, a dual-frequency router is used to transmit these two signals at the same time. Two different antenna technologies are used: a single-frequency antenna, one antenna transmits one signal; a dual-frequency antenna, one A single antenna emits two kinds of signals.
Is there any difference between single antenna routing, dual-antenna routing, three-wire four-wire, or even more? Yes, but the impact on the actual use process is not large, including signal coverage, signal strength, and the antenna speed is even more nonsense. Aside from the rare single antenna, the remaining “multi-antenna” is just the “medium” or “tool” for MIMO technology. The difference lies in the architecture used: common dual-antenna products mainly use 1T2R or 2T2R, 3T3R or 3T3R is used in the three-antenna product.
In theory, increasing the number of antennas will reduce signal coverage blind spots, but we have verified through a large number of evaluations that this difference is completely negligible in an ordinary home environment. Moreover, just like the built-in antenna does not lose the external one, the three-antenna coverage is not as good as the two-antenna coverage, and the product quality is also an important factor in the final analysis.