WiFi antennas play a huge role in society. The corporate office is a busy and constantly changing environment. As employees move, Wi-Fi signals may be blocked by obstacles.
In addition, the WiFi signal may also be interfered by other 2.4 GHZ wifi antennas or employees’ Bluetooth devices. Tablets, laptops, smartphones and other WiFi devices will automatically connect after entering the WiFi network range (even if these devices do not require Real use of Wi-Fi network) will also affect the performance experience of the entire network.
The result of all this interference is that the Wi-Fi network loses serious packets, causing wireless devices to retransmit data, which in turn leads to further congestion on the network.
Because the 2.4 GHZ wifi antenna performance of many mobile devices is not strong enough, a lower data transmission rate is often used to maintain a connection with the access point in an attempt to minimize packet loss.
The larger the bandwidth, the more problems. The poor network performance is not caused by insufficient bandwidth. Therefore, blindly increasing the network bandwidth will not improve the poor Wi-Fi network performance experience.
And adding access points will make the situation worse, because more 2.4 GHZ wifi antenna access points will cause more conflicts and make the wireless terminal device confused, not knowing which access point to connect to.
One of the solutions is to use smart Wi-Fi device access points, while using network hardware devices supported by special software or network devices optimized for busy network environments.
How to adjust the direction of 2.4 GHZ wifi antenna? The radio frequency signal power output by the radio transmitter is transmitted to the antenna through the feeder (cable), and is radiated by the antenna in the form of electromagnetic waves.
After the electromagnetic wave arrives at the receiving address, it is followed by the 2.4 GHZ wifi antenna (only a small part of the power is received), and is sent to the radio receiving machine through the feeder.
It can be seen that the antenna is a major radio device that emits and receives electromagnetic waves. Without an antenna, there is no radio communication.
There are many types of wifi antennas for use in different situations such as different frequencies, different uses, different occasions, and different requests.
It is necessary to properly classify many types of wifi antennas: according to their use, they can be divided into communication antennas, TV antennas, etc.; according to the operating frequency band, they can be divided into shortwave antennas, ultrashort wave antennas, microwave antennas, etc.; according to directivity classification, It can be divided into omnidirectional antennas, directional antennas, etc.; according to the shape classification, it can be divided into linear antennas, planar antennas, etc.