See what the differences between the 5G Vs. technologies are. 5G+, used for high -speed mobile and internet connectivity.
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If the Internet works at satisfactory speed on your smartphone or tablet, it is unlikely to affect you in any way if the mobile operator provides the Internet 5G or 5G+. so much 5G, as well as the technology 5G+, offers in most countries download / upload speeds sufficient for high quality video calls, online games with advanced graphics, 4K resolution video viewing, remote -time real -time applications.
Internet subscription offers at speed 5G+ creates little confusion among less technical consumers. There are quite a few sources of information within the meaning of everyone in which it is explained The difference between the 5G vs. technologies 5g+.
We no longer say that although the (theoretical) speed supported by 5G technology is 100 times higher than the predecessor 4G technology, this does not mean that the mobile operator will guarantee a download speed between 10 – 30gbps. Speed 5G/5G+ It varies depending on how performance the consumer's terminal (smartphone) and the frequency and characteristics of the 5G or 5G+bandwidth.
See what the difference is between these technologies.
If you do not use applications to request ultra-rapid (ultra-tap) and very low, then you should be regardless of whether the mobile operator provides support for 5G or 5G+.
Network feature 5G+ (particular case, in Europe)
The difference between 5G and the 5G+ technology (5G vs. 5G+) is given by the frequency of the bandwidth and the way it is obtained.
In 5g+covering, networks use an impressive bandwidth of up to 150MHz, being obtained by intelligent combination of 4 different lanes: N78+B3+B7+B20. This larger bandwidth allows a higher data transmission capacity and a very fast and fluent user experience.
In the 5G+ technology is mainly used the frequency band N78 (3.3-3.8 GHz), which represents one of the most common strips for 5G in Europe. The strips are also used B3 (1800 MHz), B7 (2600 MHz), B20 (800 MHz) to achieve a balance between performance and coverage.
For the end user, this 5G+ coverage feature means a speed of Download up to 1500 Mbps and upload up to 160 Mbps. Sufficient speed for faster Internet browsing, video playback without interruptions and increased possibilities for advanced applications, such as virtual reality or high quality online games.
Network feature 5G (particular case, in Europe)
On the other side, the 5G covering is based on a bandwidth of up to 60MHz, obtained from a combination of 4 different lanes: N1+B3+B7+B20. Although this bandwidth is superior to the previous networks, it does not reach the spectacular performance of 5G+. The download speed is up to 500 Mbps, upload up to 100 Mbps.
bands N1 (2100 MHz), B3 (1800 MHz), B7 (2600 MHz), B20 (800 MHz) represents the combination of frequencies used in technology 5G, respectively in mobile networks 4G LTE. This combination is often used by telecommunications operators to provide better coverage and improved capacity in their networks.
N1 (2100 MHz): This is part of the broad frequency broadband spectrum and has been used previously for technologies 3G and/or 4G. Currently, it is also used for 5G in some countries. Due to its characteristics, the N1 band offers a good combination of coverage and data transmission capabilities.
B3 (1800 MHz): This is also a medium frequency tape and has been used mainly for 4G LTE. Banda B3 It offers good capacity and is often used in the urban environment to ensure a stable and fast connection for users.
B7 (2600 MHz): This is part of the tape spectrum and was also used for 4G LTE. Banda B7 It offers high speeds, but its coverage is more limited and is more suitable for densely populated areas and for services with large tape width requirements.
B20 (800 MHz): This is part of the low tape spectrum and has been used mainly for 2G technology and technology 4G LTE. Banda B20 It offers more extensive coverage and penetration capacity in buildings and obstacles, but offers lower speeds compared to higher frequency bands.
5G vs. 5G+
Therefore, in the case presented above, the difference between 5G vs. 5G+ is given by the band N78. Frevention of up to 150MHz for 5G+covering, compared to the 60MHz frequency of 5G network. This means transmitting data at very high speeds, facilitating the discharge and rapid loading of high files and real -time media content.
Being a very generous band of width, it allows operators to withstand a larger number of users, without affecting the network performance. Band N78 (5G+support) at the same time provides a stable and fast connection even in environments with many devices connected simultaneously, being ideal for large, crowded cities.
There is also an inconvenience. Although they provide impressive speeds, tall frequency strips like it is N78 (default 5G+technology) can be more limited in terms of spatial coverage, compared to lower frequency bands. This is due to the low capacity to penetrate buildings and obstacles. Is the same inconvenient I wrote to Differences between 2.4GHz and 5GHz frequency for wireless routers.
In conclusion, how tender is 5G+technology, we are entitled to believe that this will become the standard for mobile connectivity. Likely speaking, 5G+ ensures the speed of the meal that consumers expected to benefit with the 5G implementation.
It is well known that the internet speed provided by the 5G coverage may differ depending on several factors and the mobile operator.
For example, in Romania, Telekom 5G supports speeds up to 250Mbps download / 50Mbps upload, Digi 5G Supports up to 600Mbps Download / 40Mbps Upload, Vodafone 5G provides up to 500Mbps download / 50Mbps upload, while the operator Orange Romania Provides 5G support (500Mbps download / 100Mbps upload) and 5G+ support with 1500Mbps download / 160Mbps upload.
