How to Improve Poor Mobile Phone And Internet Signals?
Poor mobile phone and internet signal is still a pressing issue faced by many users, especially in densely populated areas or remote locations. However, in today’s world, a stable network connection is a vital necessity. One of the innovative solutions that help improve the signal and ensure a reliable connection are private 5G networks and private 4G networks. These networks allow businesses to create their own networks with high speed and minimal delays, tailored to their specific needs. Another, more budget-friendly option that suits absolutely any user is the use of a mobile booster.
How Do Mobile Signals Work?
Transmission of radio signals between devices is carried out by mobile networks using cell towers. The closer the user is to the tower, the better the signal strength can be picked up by his mobile device. However, the signal can be weakened or completely drowned out by obstacles such as buildings, terrain, building materials, and weather conditions. This can happen even within the city.
In the countryside, the situation is of course worse, since there are fewer cell towers there. As you move through various obstacles, the signals become weaker.
Simple Ways to Improve Your Mobile Phone Signal
If you find yourself in an unexpected location with poor mobile phone reception, there are simple steps you can take that may help you contact loved ones or browse the Internet. Of course, this doesn’t solve the problems businesses face.
1. Conserve the battery.
Your phone’s battery drains power when it tries to connect to a nearby cell tower. When the battery is low, the mobile device activates power-saving mode. This minimises the ability of the device to effectively capture a signal. Thus, users experience problems when making calls. The best solution in this case is to use portable chargers.
Leaving unnecessary apps running in the background can speed up your phone’s slowdown and limit your mobile phone reception. Turn off near-field communication, navigation, and Bluetooth unless you need them. These simple steps will help you conserve more power for your battery to maintain your mobile connection.
2. Restart your phone.
Your phone may be better able to pick up mobile signals after a restart. This will allow your phone to receive the latest software updates. It can also fix software glitches that occur when antenna signals bounce from one tower to a closer one.
3. Fix Voice & Data.
In some areas, a specific communication standard may prevail. This may be either a 3G signal or a 4G or LTE signal. To optimise the performance of your smartphone, we recommend checking and, if necessary, changing the Voice & Data settings.
4. Change your surroundings.
Metal fixtures and heavy furniture in your home can block your mobile signal. Overgrown trees and bushes can also affect reception. Consider rearranging or trimming these items so they don’t block the outside signal.
5. Open your windows.
Low-E glass and other materials act as barriers to UV rays and heat transfer, but they also prevent mobile signals from penetrating buildings. Insulation and some paints can also interfere with reception. In this case, you’d better try opening a window or going out into an open space.
6. Try to get a signal from outside.
Replacing building materials that block mobile reception is probably not a viable option. Simply leaving the house may temporarily solve the problem of poor reception.
How Do Mobile Phone Signal Boosters Work?
Mobile signal booster equipment includes antennas and a booster that captures the signal outside the building, amplifies it, and redistributes it using antennas inside a building. This ensures consistent coverage for all users and their devices in the building.
A mobile phone signal booster offers the following benefits:
- fewer missed messages and dropped calls;
- reduced dead zones;
- improved streaming;
- increased battery life on mobile devices;
- optimised use of unlimited data plans.
The worse the signal on the street where the external antenna should be and the more cable is needed in the amplification system, the more powerful the booster must be installed. The booster specifications include the recommended number of internal antennas.
Any mobile phone signal booster system consists of at least the following components:
- signal power amplifier;
- external antenna;
- cable assembly, with appropriate connectors, for the external antenna;
- internal antenna.
The system works like this: the external antenna is installed in the direction of the base station on the facade or roof of the building. It receives the signal and transmits it to the booster using a high-frequency coaxial cable. The booster amplifies the signal and transmits it to the internal antennas, which in turn distribute the amplified signal to your devices.
It is also important to consider the following factors:
- The external antenna should be installed at the level of the base station, usually at a height of 15 m to 30 m from the ground.
- The number of internal antennas is selected based on the calculation that one antenna works in a room with a radius of 5 to 30 metres. This calculation depends on the signal level that comes to the internal antenna.
- You should choose only high-frequency coaxial cable (50 Ohm), with minimal losses.
- The booster should work exactly in those frequencies in which the 4G, 3G, and 2G signal is present. And the gain factor should correspond to the level of the incoming signal.
Wrapping it Up
There are many approaches to solving the problem of poor mobile and internet signal, from using signal boosters to optimising the placement of routers. However, large enterprises that require a stable high-speed connection are best off looking at private 4G/5G networks. These private networks not only provide excellent connection quality but also offer a high level of security and adaptability. Investing in private 5G mobile networks allows businesses to achieve not only excellent connection quality but also security. UCtel is a reliable company that provides services to improve the quality of mobile signals through the installation of boosters and the deployment of private networks.