The electromagnetic waves you pick up with a cellphone or a radio are radio waves, which are basically the same as wi-fi waves. The main difference between these two waves are the length, where AM radio waves are hundreds of meters long, conventional wi-fi waves are only about 12 cm long.
This means that as the wi-fi waves you desire get farther from the router, your signal will get weaker. Generally, these waves can’t go more than 150 feet from the router. Along with this, they get absorbed and blocked by walls and metal surfaces, so the positioning of you and your router will make a significant difference as well.
Here are five tips to get the high-speed internet you desire, at even higher speeds:
By being in the center of all devices, as well as out in open, your router will broadcast signal in equal strengths and all directions.
Routers can’t penetrate certain materials that make up floors (like metals, concrete or cement). Also, most routers are designed to broadcast signals slightly downward, so avoid sending your wi-fi into the basement or ground for no reason.
Pretty much anything with a motor (televisions, microwaves, computers, etc.) can interfere with your signal.
Majority of routers have two antennas. Ideally you would like to have one facing vertically, and the other horizontally. When the internal antenna of a device is parallel to the router’s, it works better. As most laptops have horizontal antennas, and mobile devices depend on which way you hold them, keeping one antenna in each direction ensures your highest potential signal for any device.
If you find your internet isn’t working quite as well as it should, it wouldn’t hurt to take the time to measure your signal strength. There are many apps to help you do this, and from there you can figure out what needs to be done to improve it.
These are all fairly quick and simple tricks that are sure to increase your internet speeds, and that’s sure to save you time in the long run. Contact us at (780) 851- or send us an email at email@example.com for more information.