Mobile technologies continue to develop rapidly, and the transition from 4G to 5G is a key stage in this process. The fifth generation of communication offers users not only an increase in data transfer speed but also a completely new level of capabilities, such as improved connection stability and reduced latency. However, to fully unleash the potential of the fastest 5G network in the UK, it is important to take into account the need to optimise the signal. Here it is important to use boosters, which significantly improve the quality of communication, ensuring stable and fast data transfer even in difficult conditions.
Features of 4G And 5G
4G is the fourth generation of mobile network, which has improved speed parameters (up to 1000 Mbit/s) and connection quality. The system is based on packet data transmission via IPv4 protocol with subsequent transition to IPv6. The main difference between the technology and 3G is the focus on packet switching with the ability to transmit voice via VoLTE.
5G is the fifth generation of mobile communications, which refers to a new technology. The external difference between 4G and 5G towers is minimal, but in other respects, the fifth generation has bypassed its outdated competitor. In particular, the frequency ranges, connection speed and a number of other features have changed. The technology was first developed in 2015, but in many countries, it is only now appearing.
4G And 5G Speed
The technical differences between 5G and 4G deserve special attention. And the first thing that catches the eye is the speed of downloading data from the Internet. When the fourth generation network appeared, it had an amazing channel width of 20 MHz. This was enough to achieve a speed of 150 Mbps. Over time, 4G+ technology appeared, which raised the limits to 400 Mbps.
The main difference between 5G and 4G is an increase in speed to 1 Gbps. This is several times more than the average parameter for 4G. It is not surprising that many enterprises and users are interested in 5G.
4G And 5G Ping
If the visual difference between 4G and 5G towers is almost imperceptible, then in the matter of ping there is a big difference in favour of the latest generation. Ping is the time required to send one packet of information. Its reduction leads to a faster response and no slowdowns. This is especially important during games. Theoretically, ping for a fifth-generation network can be about 1 ms. For comparison, in 4G this parameter could reach 40-50 ms.
Operating Range of 4G And 5G
When considering the question of how to identify a 5G network tower, it is important to know its differences in terms of operating frequency. 4G technology involves data transmission at a frequency of 0.8 to 2.6 GHz. At the same time, the tower covers an area of up to 10 square kilometres.
The 5G network operates at higher frequencies. They are conventionally divided into two bands. The first (FR1) operates in the range from 0.6 to 6 GHz, and the second (FR2) from 24 to 100 Hz. This means that to get a high-quality signal, fifth-generation equipment must be placed closer to homes. There are situations when 5G masts are installed right next to the place of residence.
General Differences Between 4G And 5G Towers
Before considering how to distinguish a 5G tower from a regular tower, let’s summarise the real features of the new technology.
5G capabilities:
- Sending SMS, and calls, using the Internet, and streaming video. These functions are also available on 4G.
- Faster loading of sites and videos.
- Reduced lag when playing online games.
- Instant connection to the network.
- Simultaneous connection of different equipment without the risk of speed reduction.
- The ability to connect a smart home, wireless sensors, and other devices to the Internet.
- Faster GPS operation on head units that can connect to the Internet.
In general, the differences between 5G and 4G from a technical point of view are clearly visible. This makes the transition attractive for users who need high-speed connection to the fastest 5G mobile networks in the UK.
How to Visually Distinguish a 5G Tower?
The next point that requires consideration is how to recognize a 5G tower. The external difference is almost imperceptible because the main feature lies in the functionality. The main thing that distinguishes fifth-generation technology is its proximity to the residential sector. This is due to the smaller coverage range. In other words, 5G towers have a higher density of placement and can be located right next to your home. They are rectangular in shape.
How to Improve 4G And 5G Signals?
Despite the attachment of users to mobile communications, in some regions, there may still be problems with communication. The reasons may be the terrain, the density of buildings, the distance from the cell tower, weather conditions, etc. A mobile signal amplifier helps to ensure the quality and efficiency of the reception of a radio signal of a 4G or 5G mobile network.
Today, the mobile communications market offers users a variety of boosters. Their main purpose is to improve the signal level of the mobile network. It should be noted that a booster is equipment that is much more complex in design than a regular mobile phone or smartphone. Naturally, when searching for and selecting such equipment, you will most likely encounter some difficulties.
So, here are the main questions that will require an answer:
- determining the mobile communication standards used by your operator;
- choosing the booster gain;
- determining the booster output power required to cover the entire room with a signal;
- selecting the model and technical characteristics of the external and serving antennas;
- selecting the installation cable.
Wrapping It Up
5G opens up new possibilities for users, such as instant responses, support for a huge number of devices, and significantly improved connection stability. However, to fully benefit from the fastest 5G network in the UK, it is important to pay attention to signal optimization. Boosters, like those that instal UCtel, play a key role here, helping to ensure a stable and high-quality connection even in areas with weakened coverage.