![]() ![]() That is, the router emits a signal but also receives it from the computer, mobile or any device that we connect. Why might increasing the power not improve the connection? The Wi-Fi network of the router must be understood as a bidirectional system. Increasing the power too much can cause devices you connect to the wireless network to have trouble gaining access, but it could also affect other nearby routers. The best thing to do, unless you really know what you’re doing, is to leave the Wi-Fi transmit power as it is configured. This is so since generally the devices are not going to adjust to the access point or Wi-Fi where we are increasing the power and there may be problems. In some cases, it can improve your connection, but generally it could bring more problems than benefits. If this were the case, the routers would always be configured with the maximum possible power. Increasing the power does not always improve the connectionĪt this point it is logical to think that the more Wi-Fi transmission power, the better power. It may also be measured in mW and a numerical figure that you can modify to be higher or lower. However, you may also find yourself simply with Low, Medium or High. Typically, it is a measure that you can adjust and goes from 0 to 100%. ![]() You’re going to find a few different methods to measure that Wi-Fi transmit power. Be careful with this, since greater power will not always mean an improvement. That could affect wireless coverage, both positively and negatively. On occasion, the router may allow this power to be lowered or raised. This is called Wi-Fi transmit power, but you can also find it as transmit power control. Sometimes we can adjust this power to be higher or lower, just as we can do the same with the sound volume of a device. This is something similar, but in this case it is measured in dBm (decibel milliwatts). Think of a radio or television and the power of sound, which we measure in dB (decibels). We can say that the Wi-Fi transmission power is a way of measuring the power at which the device emits.
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