While this task seems rather simple, in reality to do it right, is not an easy task and there is not one single device to do it properly. They will slow down your network, decrease your speed and make your WiFi network more complex than it needs to be. RadioLabs solves this WiFi problem in a brilliant fashion, by providing one of the most ingenious solutions on the market. We have a robust, high power, easy to program solution, which allows our customers to mount our External WiFi Extender kit, aka: o2Surf — Backfire WiFi Extension kit, which allows you to install one simple kit on the remote building, which is powerful enough to reach all the way back, connect to your home router and provides a localized Access Point inside of the remote building.
Instead of trying to connect your low-powered WiFi Device several hundred feet away, or using WiFi Repeater or plug in the wall extenders most of which do not work at all and slow down your signal even when they do , our WiFi Building extension kit, allows you to connect several hundred feet away, reaching all the way into even the lowest power home router and connecting in minutes.
In 3 simple steps, you can put a fully functional high speed network in any building. Our simplified guide, easy, pre-secured network access point, and an outdoor WiFi radio, that operates in 2 modes at once, our o2Surf Connection System, allows you to quickly and easily connect to ANY access point and provide a stable, high power WiFi link into the buildings on your property, with excellent speed, stability and amazing stability.
Utilizing customized programming we developed, our o2Surf Connection System, reaches out to your home router, access point or quite literally any 2.
Our kit then creates its own fully functional high speed sub-network, allowing you to connect up to separate WiFi or wired devices to our high power access point included in the kit. RadioLabs makes the programming on our WiFi building extender kit easier than anything on the market. Anything that has metal, such as metal blinds, doors, furniture, infrastructure, and walls, can greatly diminish or completely terminate the WiFi signal.
The more metal there is between your WiFi router and the connected device, the worse the WiFi signal will be. As a result, the WiFi signal has a hard time passing through concrete walls and floors. Especially if they are coupled with metal laths. The thicker the concrete, the harder it is for the signal to pierce through - even with the help of a WiFi booster also referred to as WiFi repeaters or WiFi extenders.
Plaster is made up of lime, gypsum, or cement, that is used to coat walls and ceilings. Even though plaster walls are not extremely thick, they will slow down the WiFi signal as it travels. Many modern structures use metal laths in plaster to act as a framework for interior walls. Since metal lath consists of metal and takes part in creating thicker walls, the WiFi signal can be greatly reduced or blocked.
Like drywall, the WiFi signal weakens as it travels through ceramic tile. Typically, mastic is used to install ceramic tiles on plaster or drywall. A combination of these materials increases the amount of WiFi interference. They are transparent and not as thick as walls. While windows are great for letting the light in, they interferer with your signal by reflecting it.
Especially Low-E low-emissivity windows. They have a metallic film to help with energy consumption. Therefore, they can block and reflect the signal more than a clear window. Tinted glass is designed with specific materials to block out the light and often come in an array of colors. Similar to Low-E glass, they sometimes contain a metallic film which interferes with specific radio signals.
Similar to windows, mirrors are also reflective. All mirrors are made up of a thin coat of metal on a piece of glass. Due to the metal backing, they cause electromagnetic interference. The effect a mirror has on your WiFi signal depends on the size of the mirror. For example, a mirror wall will interfere with the WiFi signal more than a small decorative mirror.
Drywall is one of the most common building materials you will find in homes and businesses. Even the best wireless equipment will be limited if improperly placed. To ensure that your wireless router is running at maximum efficiency, keep your router out in the open free from obstructions. To further optimize efficiency, place the antenna if external vertical and elevate the router. You may also want to place the router away from other digital appliances.
Electronic devices such as microwaves and cordless phones can potentially cause interference, damaging with your wireless signal. Just like avoiding the Holland Tunnel during rush hour, you want to avoid using overly congested channels. Wireless routers have the ability to operate on various channels, so make sure to choose the channel with the least amount of interference.
Pro Tip: The channels most often chosen are 1, 6, and 11, because they are evenly spaced in such a way as to avoid overlap. In order to extend your WiFi range outdoors or to another building, you may have to enhance your current system. While many WiFi routers come with internal antennas, some are able to support external ones as well. By installing an external antenna you can direct your antenna, positioning your WiFi signal toward the direction you desire.
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