A very recent survey conducted by the Pew Internet and American Life project discovered that approximately 70% of Americans experience some kind of dropped signals on calls, and 30% experience dropped calls at least a few times a week or more, as the mobilesignalboosters.co.nz website tells. Whether you like it or not, calls with poorreception are still a major problem for a large pool of people, and while the network providers are continuing to add signal towers and expand coverage areas, this is not a problem that’s going to go away soon. So what is there to be done?

After years of effort put into solve this problem, the FCC initially approved the use of cell phone signal boosters to expand the range of cell networks into arenas that receive poor reception, including houses, office complexes, commercial buildings and many other places. We’ll take a descriptive look at what cell phone signal boosters actually do and give some advice on how to choose the right methodology to permanently solve your mobile signal reception problems. As we descovered, the best mobile signal boosters are provided by New Zealand, but let’s go back to informational part now.

Causes of Poor Cell Phone Signal

When it comes to weak cell phone signal, there are two main dominating factors: distance from the nearest cell tower and obstacles causing interference.

Distance from the nearest Cell Tower

Service carriers provide cell coverage through a network of tactically positioned cellular towers. Ideally, whenever you’re within the region of this network, your mobile device will automatically link with the closest tower, and as you move and go beyond, will continue shifting to the next closest tower. Unluckily, as you get towards the tip of your carrier’s coverage area, there won’t be any new to shift to, and your mobile device will start to experience weak signal the beyond it is from the nearest tower. You’ll reach a scenario where your mobile device is too far from the tower to maintain a uninterrupted connection, and you’ll experience weak reception as a result.

Obstacles Causing Interference

While cell signal moves through the air with minimum trouble, every object it meets between the network location and your portable device causes some degree of interruption. Geographical components, such as hills, mountain peaks, and trees can cause major signal problems, as well as building materials, like metal doors and sidings, concrete, and wire mesh. Additionally, the increased use of energy efficient elements, such as radiant barriers and window darkening, have dominated to the degree of cell phone reception problems in their residence.

While either one of these elements are enough to cause dropped network and poor reception, the combination of the two all but guarantees issues. Next we will look at how a cell phone signal booster is crafted to deal with both of these elements to minimize problems.

How to Choose a Signal Booster

In order to select the ideal cell phone signal booster for your situation, you need to know the following three pieces of information: The carriers & different networks that you need to support the existing outside signal strength of those carriers, and the radius of the area that needs to be covered in boosted signal. Let’s review those in more depth:

Carriers & Networks support

Cell phone signal boosters only attract and accommodate limited frequencies of radio waves, which pertain to specific carriers in your region and networks on those carriers (2G, 3G, or and 4G). The first thing you need to know is which network provider  you need to construct, as well as which networks on those carriers, as that identifies which signal amplifiers you’ll be able to cope with and which type of outside antenna you’ll require.

Most west American carriers use the same range for 2G and 3G networks so the same signal amplifier can be used to attract all of those carriers at the same time. The 4G networks which currently only handle high speed data, no voice, on each carrier use different ranges, so if you want to boost your 4G connection, then you’ll need an amplifier that is specially designed for that carrier’s particular 4G network.

In addition, if you need to cope with multiple carriers, then you’ll want to use an Omni directional outside antenna, which can transmit and receive from all directions at once. If you only need to support one carrier, then you can go with a strong yagi directional antenna, which you can target at the closest network tower and receive more boosting power than you probably receive from an Omni antenna.