- The Full form of 4G is the 4th Generation.
- The Full form of 5G is the 5th Generation.
What does 4G means?
4G (4th Generation) is the fourth generation of mobile phone communication technology standards and is a successor to the 3rd Generation (3G) standards. 4G allows users faster access to the Internet than 3rd Generation (3G) networks and offers high bandwidth internet access with allows the ability to access high-definition (HD) video, high-quality voice, and high-data-rate wireless channels via mobile devices.
It is the cellular broadband communication technology that is specified by the Generational update where 4G means the Fourth Generation one more word LTE gets used along with 4G which means Long Term Revolution. The major difference between these generations of networks is getting differentiates with the speed of the internet by it.
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What Does 5G mean?
In technical terms, 5G is the fifth generation standard technology for broadband cellular networks or computer and mobile networks that cellular mobile companies started installing in their devices in 2019.
5G is also the best successor of the 4G technology network that provides internet and networking benefits even to small areas around the world.
5G uses very fast and short-ranged signals within a dense network of focused small cell sites. These signals are used on an unused frequency band that sends and receives more aggregate data.
This process results in faster and more efficient download speed and many constant connections for wireless devices. However, waves of data transfer can have a shorter range due to these frequencies.
5G technology has faster speed and large spectrum capacity that turn into a more valuable cellular experience. In this way, smartphones will run faster than regular mobile connection networks even when the WIFI is switched off.
How does 5G work?
Wireless networks are composed of cell sites divided into sectors that send data through radio waves. Fourth-generation (4G) Long-Term Evolution (LTE) wireless technology provides the foundation for 5G. Unlike 4G, which requires large, high-power cell towers to radiate signals over longer distances, 5G wireless signals are transmitted through large numbers of small cell stations located in places like light poles or building roofs. The use of multiple small cells is necessary because the millimeter wave (MM wave) spectrum– the band of spectrum between 30 and 300 gigahertz (GHz) that 5G relies on to generate high speeds — can only travel over short distances and is subject to interference from weather and physical obstacles, like buildings or trees.
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