Introduction to Poor WiFi Signals And Fixes
If you are wondering why your home WiFi is not responding as well as it was advertised, well I have news for you. There are multiple reasons why a WiFi network might not be providing ample speeds and connectivity within your home. The primary reason being disturbances and interferences.
There are certain household items that cause a lot of disturbance to the WiFi signal. You might not even realize but the TV that you have placed beside the router might be guzzling WiFi signals before they even reach you.
WiFi signals run on certain frequency bands, namely 2.4 GHz and a 5 GHz band. The 2.4 GHz band, though has range, but its signals can be dulled down by electronic appliances in your home.
The 5 GHz band is a much faster and more effective way to send WiFi signals, but it sadly has much less range. A WiFi on a 5 GHz band will see much fewer disturbances as compared to a 2.4 GHz band.
So, let’s see which items and appliances are causing the most interference with your WiFi signals,
Items and appliances that cause disturbance
From other WiFi signals to water, there are a lot of things inside and around your home that can cause poor connectivity.
The primary reasons include –
Stray networks from your neighbor’s WiFi also commits to reducing strength in your connection. A 2.4 GHz band connection is the single largest source of signal interference.
Wireless networks and Bluetooth:
Wireless networks like the ones on your mobile phones and active Bluetooth also disrupt WiFi connections.
Radios are prime suspects when it comes to weak WiFi connectivity. Older WiFi bands often use a similar frequency as radios and therefore interfere quite heavily with the network.
Microwave ovens use electromagnetic waves to heat food. Unfortunately, standard WiFi also uses a similar band of electromagnetic waves to transmit data. It seems only obvious not to place your WiFi router beside your oven.
Walls made from concrete or thick wood walls both commit to reducing WiFi signals in your home. The 5 GHz band notoriously needs a straight line of sight from the source to the host to function properly. Walls affect the 5 GHz band much more than they affect the 2.4 GHz band.
Metal objects like floor heating and such can also dull down signals if your house is divided into multiple stories.
If you have an aquarium or something besides your router, you can be sure the signals will be terrible once they reach you. If they do, so to speak.
Television and other appliances:
All appliances that use electricity can cause signals to get lost in transit. The fix being, do not put the router behind your TV.
Further visit: A Speedy Solution To Networking Problems Beyond 2020
How to Fix weak WiFi networks
Now, there are a few ways you can deal with weak connectivity. The most useful ones include –
Invest in a better router:
Buying a more powerful router with multiple antennas might be the way to go. This not only increases the range, but also the strength of the signals. They still are affected by stray EM waves, but not as much.
Find a good place for the router:
Placing the router in a more centralized area of your house is suggested. This prevents other networks to interfere with it.
Use WiFi extenders/boosters:
Alternatively, you can invest in WiFi boosters. They are essentially rebroadcasting devices for your WiFi. They are plugged into a wall socket, connected to your existing WiFi and they start transmitting WiFi signals by becoming a source. This allows you to keep connectivity at a maximum by adding one on every floor where the connectivity is low. There are so many such boosters that are there in the market, you can check SuperBoostWiFi Reviews it is one of the most trending Wifi boosters nowadays.
There is a tonne of different reasons for your WiFi signals to slow down and for you to lose connectivity. Keeping in mind the few things that heavily affect signal strength, you can create a high connectivity zone by either boosting WiFi signals around the house or preventing household items to interfere with the signals.