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What is LTE Internet?
LTE (Long Term Evolution) is by far the most widespread wireless data transmission technology. It is also sometimes called 4G LTE internet. LTE is an option for mobile internet that allows you to enjoy superior network connectivity on your smartphone, tablet, or laptop. It is also ideal for people who travel frequently or, for example, change their place of residence very often due to work. After all, you can always use UCtel’s mobile signal booster services in parking lots or other places to keep in touch.
Today, the quality of LTE technology is very high, and the connection is usually stable, although of course not as stable as fixed internet via cable. It can also be a good solution in places where fiber optic internet, for example, does not reach.
LTE speed depends on a number of factors including, but not limited to, the distance from the relevant transmitter, the model of the mobile device, the number of active LTE users in the area, or even the terrain. Therefore, the LTE speed advertised by the provider may differ from the real one. To check the possible difference, the best way would be to conduct a popular link speed test. LTE Internet from PLAY allows you to transfer data up to 200 Mbps, so you can enjoy your connection whenever you feel like it. When choosing the internet, data limit is also a very important issue. It will be best to consider how much internet you use and what you need it for. An urgent e-mail from work, or maybe an episode of your favorite TV series just when you are on the go? Enjoy high-speed LTE Internet whenever you are in the range of it.
LTE versus 4G – are they the same thing?
Mobile networks are constantly evolving to provide users with access to the broadest possible package of mobile phone service booster and to support the ever-increasing number of devices connected to the Internet. Around the world, fourth-generation networks are currently the standard, and deployment of fifth-generation networks – 5G – has already begun in major cities.
In order to use a given generation of networks, a phone should support the relevant standards, which determine how the phone communicates with its network in a given region. Subsequent generations of networks are deployed every 10 years or so, with new standards appearing every five years or so. Within each generation, therefore, it is possible to identify two standards used to make calls.
However, the terms 4G and LTE should not be used interchangeably, as the former refers to a fourth-generation mobile network that uses LTE technology. LTE is therefore part of the broader term fourth-generation networks. Until recently, the term LTE could be used as a synonym for 4G networks, since only with LTE networks could one enjoy the benefits of fourth-generation networks. Today, a newer version of this standard, called LTE-A, is available, but it is still classified as a fourth-generation network.
2G, 3G, 4G, and LTE—how are they different?
Today, 4G LTE technology on mobile devices is an absolute standard. Previously, however, phones had to use much less advanced transmitters.
- The first-generation 1G towers only allowed calls.
- The second generation of 2G brought the ability to send text messages and surf the Internet at speeds as low as 0.2 Mbps. In second-generation (2G) networks, calls were made using the GPRS standard, later EDGE.
- The next, third generation, referred to as 3G, already allowed the use of multimedia, although still at a low speed of just over 42 Mbps. In the second generation (2G) networks, connections were made using the GPRS standard, later EDGE.
- The real revolution in the use of mobile phone signal booster for all networks was brought about by the fourth generation (4G), which allowed the use of advanced applications while offering speeds of even more than 300 Mbps. In fourth-generation (4G) networks, the Long Term Evolution (LTE) standard is responsible for connections, and the latest devices feature an evolution of this standard, called LTE-A (for “Advanced LTE”).
- The fifth-generation 5G technology is expected to offer data speeds of even more than 1,000 Mbps.
How does the LTE standard work?
Technically, the LTE standard is a development of the standards used in Europe for second and third-generation networks and is focused entirely on Internet connectivity. Notably, the LTE standard itself no longer supports classic phone calls. So if you are calling someone who is not on the LTE network, your call will be made using standards from previous-generation networks.
- If you make a call between two phones on the LTE network, the traffic will be routed over the Internet, and callers will notice a significant improvement in sound quality during the call.
- As the first implementation of fourth-generation networks, the LTE standard offers a noticeable acceleration of Internet connections, the speed of which already matches that found in fixed-line Internet. LTE has also significantly improved the performance of the entire network in city centers and the largest human concentrations, where its load is highest.
- It is worth noting that LTE is the first mobile connection standard to be introduced simultaneously around the world. On different continents, LTE networks operate at different frequencies, but if you have a multi-band phone, you can be sure that your phone will “catch coverage” anywhere there is access to the LTE network.
Most devices on sale today support the 4G LTE standard. In practice, if your device connects to an LTE network, you can expect a connection up to 10 times faster than a 3G network and more than 100 times faster than a 2G network. For LTE-A networks, you can expect a connection up to 3 times faster than LTE networks.
Such throughput in the case of LTE networks allows you to freely access websites without long waits for the page to load, as well as uninterrupted transmission of Ultra HD (4K) video. With an LTE-A network, web pages should open up to three times faster, and the transmission of a movie should allow free scrolling without delay. The speed of LTE networks can also improve the operation of, among other things, payment terminals in stores, so that payments for purchases will be finalized even faster.