Difference Between 3G and LTE (With Table)

A high-speed internet connection is a must-have. When we are using an internet connection we look forward to a better, strong internet connection. Because they improve the quality of our surfing experience. 3G and LTE are advanced technologies that are used in mobile phones.

We all require a high-speed connection to message, send images, and surf without buffering because instant messaging should not be an option but a must. Initially, there was 1G, which was the slowest of all, followed by 2G, which was slightly better, and 3G, which was even better.

3G vs LTE

The main difference between 3G and LTE is the speed of connectivity. LTE is significantly faster than 3G. On the other hand, in some situations, LTE can be slower than 3G.

The third generation, also known as 3G, is a type of connectivity that was developed after the 2G to provide a seamless surfing experience. We can access the internet through these services. 3G was first commercially launched in 2001, in Japan. And ever since it has been around. And it’s been around ever since. The previous 2G was extremely inconvenient because it took an eternity to load pages and send messages. 3G is the third evolution, following 1G and 2G.

The full form of LTE is long term evaluation.LTE is a lot faster than 3G. However, in some situations, such as high-traffic locations, LTE may be slower than 3G. However, LTE is a relatively new advanced technology that is frequently compared to 4G. Because the speed of this connection is amazing. When a user is in a mobile conveyance, LTE speeds can reach up to 100 Mbps. However, when employed in a stationary device, the speed can reach 1 Gbps. As a result, it is recommended that you purchase a device that is compatible with LTE or an LTE service provider.

Comparison Table Between 3G and LTE

Parameters of Comparison3GLTE
SpeedEven though 3G networks are fast, they do not deliver buffer-free services.When compared to 3G networks, LTE is substantially faster, and it is frequently compared to 4G speeds.
StabilityThe 3G network is dependable and stable.LTE might be unstable in rare scenarios.
Formation 3G was founded in Japan in 2001.LTE was developed in 2008.
Full form 3G stands for third-generationLTE is an acronym for long-term evolution.
Power usage 3G doesn’t consume more battery powerSince it transfers a large amount of data, LTE depletes batteries faster.

What is 3G?

The 3G (third-generation) network was the first wireless mobile telecommunications technology, providing somewhat faster speeds than previous connections. Although it does not give a faster connection, it is superior to 1G and 2G. It’s adequate for loading pages and connecting to the outside world.

The 3G network operates at a frequency of 2100 MHz. Meanwhile, it has a bandwidth of 15-20 MHz. Because of the higher bandwidth and data transfer speeds, we can send and receive larger email messages through this type of data network. 3 G has an 8Mbps transmission speed. Packet switching technology is mostly used in 3G networks.

The 3G network uses a phone tower to pass signals, and the tower nearest to the users mobile phone passed data to it. Furthermore, 3G is more stable than any other modern data network. It also consumes less energy, so if you want to save your phone’s battery life, you can switch to a 3G connection. The 3G network is advantageous because it offers set Dara rates and rich multimedia capabilities.

What is LTE?

LTE stands for Long Term Evolution. LTE connectivity is faster than 3G. However, in high-traffic regions, LTE has the disadvantage of being slower than 3G. And also, LTE can cost you a lot since the connection isn’t unlimited, and sometimes LTE network can be unstable too. LTE can run up to,1 Gbps when it’s in a stationary device and it is fantastic.

The connection speed is virtually as fast as 4G. Emergency calls are given higher priority on LTE connections. LTE is also a self-organizing network. LTE is generally much faster than 3G, i.e. 10 times faster. However, network speed is also affected by network and signal strength. Streaming movies, browsing the web, transferring files, and a variety of other activities that necessitate a large quantity of data are all made easier in the LTE network.

It is recommended that you get an LTE compatible device or join a network that supports LTE because LTE is extremely fast. LTE is a new innovative technology with excellent efficiency and data rates that was initially introduced in 2008.

Main Differences Between 3G and LTE

  1. Even though the 3G network is fast, the speed is just 8 Mbps. However, the LTE network is far faster than 3G and gives a buffer-free experience.
  2. The 3G network is reliable and secure, however, LTE isn’t and can fluctuate at any time depending on the situation.
  3. The 3G network is compatible with older mobile phones. Meanwhile, new phones are compatible with the LTE network
  4. The maximum 3G speed is 8 Mbps. Meanwhile, 4G speeds in mobile devices can reach 100 Mbps and 1 Gbps in stationary devices.
  5. 3G was established in 2001 whereas LTE was deployed in 2008.

Conclusion

In this era, we yearn for faster mobile connectivity. There have been instances where 1G and 2G networks have failed to provide a more stable internet connection. As a result, 3G progressed and proved to be sufficient, resulting in the development of LTE, 4G, and 5G technologies. Even while 3G is slower than LTE, it offers a more consistent and secure network. It’s dependable, and the data costs aren’t as expensive as we’d expect from LTE.

However, LTE is extremely fast, and when used in a fixed device, the speed can reach 1 Gbps, allowing for instant messaging, uploading, and other internet activities. Furthermore, LTE is a relatively new technology, with practically all new phones supporting it.

LTE is frequently compared to 4G technology. As a result, we can deduce that LTE is a powerful network. However, in very rare cases, LTE can leave us stranded amid the ocean. In high-traffic locations, it operates slowly, although 3G is reliable in certain conditions.

References

  1. https://dl.acm.org/doi/abs/10.1145/2457413.2457417
  2. https://books.google.com/books?hl=en&lr=&id=cmMgp4j23D0C&oi=fnd&pg=PP1&dq=+3G+and+LTE&ots=KFeeZWqx-3&sig=xEEk8lSDID7DMA-AEYknoVLbPT8