What is 5G? Everything about 5G Explained

What is 5G?
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What is 5G?

5G stands for the fifth generation of cellular technology. It is the latest iteration of the global wireless standards after 1G, 2G, 3G, and 4G networks. Which began wide deployment in 2019. 5G is meant to increase speed, reduce latency, and improve the flexibility of wireless services. It offers incredibly fast wireless communication that can be used to transmit all sorts of data at rates as high as 20 Gbps, as well as offer latency of 1 ms or lower for uses that require real-time feedback. 5G networks offer more reliable connections on smartphones and other devices than ever before, which opens up new possibilities for where and how you stay connected. The networks will help power a huge rise in IoT technology, providing the infrastructure needed to carry huge amounts of data, allowing for a smarter and more connected world.

5G will also be used to improve the performance of business applications as well as other digital experiences, including augmented realities (AR), Virtual Reality (VR), driverless cars, telemedicine and connected buildings.

What is 5G Routers? >
What is the 5G CPE? >

How's 5G different?

The development of mobile networks:

2.4 Kbps

Analog Voice

Human-to-Human Early Mobile Phones

64 Kbps

Digital Voice

Low-Speed Data Voice and Some Text

2 Mbps

First Mobile Broadband

High-Speed Data Internet Access

100 Mbps

True Mobile Broadband

IP-Based Network High-Speed Internet Streaming Apps

10 Gbps

Interconnected Devices, Sensors, and Systems

For consumers, Goverments, and Business

1G, 2G, 3G, and 4G all led to 5G, which is designed to provide more connectivity than was ever available before.

5G is a unified, more capable air interface. It has been designed with an extended capacity to enable next-generation user experiences, empower new deployment models and deliver new services. 5G means quicker downloads, much lower lag and a significant impact on how we live, work and play. 5G will expand the mobile ecosystem into new realms, such as connected cars, smart communities, industrial IoT, immersive education-they all will rely on 5G.

What is 6G? >

5G vs. 4G

What's the difference between 5G and 4G?

• 5G is significantly faster than 4G
• 5G has more capacity than 4G
• 5G has significantly lower latency than 4G
• 5G is a unified platform that is more capable than 4G
• 5G uses spectrum better than 4G

5G vs. WiFi 6 >

Parameters	5G	4G
Peak Data Rates	20Gbps	1Gbps
Latency	<1ms	10ms
Connection Density	1 Million Connections/Km2	100 Thousand Connections/Km2
Data Traffic	50 Exabytes/Month(2021)	7.2 Exabytes/Month
Available Spectrum	30GHz	3GHz

What are the benefits of 5G?

Faster download and upload speeds

Smoother streaming of online content

Higher-quality voice and video calls

More reliable mobile connections

Greater number of connected IoT devices

An expansion of new tech - such as self-driving cars and smart cities

How fast will 5G be?

It's still not exactly known how much faster 5G will be than 4G, as much of the technology is still under development. Most estimates expect the average speed of 5G networks to reach 10Gb/s.

Just how fast 10 Gb/s really is can be demonstrated by a simple example. Users could download an app or a full-length HD quality film in just a few seconds.

Discover Fast 5G devices >

How does 5G work?

Like 4G, 5G is also OFDM-based (Orthogonal frequency-division multiplexing) and will operate based on the same mobile networking principles. However, the new 5G NR (New Radio) air interface will further enhance OFDM to deliver a much higher degree of flexibility and scalability.

Wireless networks are composed of cell sites divided into sectors that send data through radio waves. 4G requires large, high-power cell towers to radiate signals over longer distances. 5G wireless signals will be transmitted via large numbers of small cell stations located in places like light poles or building roofs.

5G networks slice a territory into "cells," sending data in them as encoded airwaves. 5G WiFi and mobile use shorter wavelengths than other networks, giving them more bandwidth. Since their smaller waves are blocked more easily by trees or buildings, they need additional small antennas. The smaller cells let more users send more data faster than with 4G tech. 5G will also expand into new service areas, such as mission-critical communications and connecting the massive IoT.

How to develop 5G technology? >
Learn More Protocols of IoT >
How does the Millimeter Wave affect 5G Network? >

What Frequency Bands does 5G use?

On 21st December 2017, in Lisbon, the 3GPP TSG RAN Plenary Meeting successfully approved first implementable 5G NR specification. The completion of the first 5G NR standard enables the full-scale development of 5G NR for large-scale trials and commercial deployments as early as in 2019. This first specification was completed as part of 3GPP Release 15.

As per 3GPP release 15, the frequency bands for 5G NR have been designated and TS 38.104 section 5.2 provides the list of bands in which 5G NR can operate. The specification defines the frequency bands as FR1 and FR2.

Band	Frequency	Type
FR1	450 to 6000 MHz	Sub-6 GHz
FR2	24250 to 52600 MHz	mm-Wave

FR1 and FR2 are the basic frequency band classifications for 5G-NR. These can be further classified into three bands:

• Frequency Division Duplex Bands (FDD)
• Time Division Duplex Bands (TDD)
• Supplementary Bands: Supplementary Downlink Bands (SDL) & Supplementary Uplink Bands (SUL)

FR1 FDD (Frequency Division Duplex) Frequency Bands for 5G-New Radio

5G NR Band	Uplink Frequency	Downlink Frequency	Bandwidth
n1	1920 -1989 MHz	2110 - 2170 MHz	60 MHz
n2	1850 - 1910 MHz	1930 - 1990 MHz	60 MHz
n3	1710 - 1785 MHz	1805 - 1880 MHz	75 MHz
n5	824 - 849 MHz	869 - 894 MHz	25 MHz
n7	2500 - 2670 MHz	2620 - 2690 MHz	70 MHz
n8	880 - 915 MHz	925 - 960 MHz	35 MHz
n20	832 - 862 MHz	791 - 821 MHz	30 MHz
n28	703 - 748 MHz	758 - 803 MHz	45 MHz
n66	1710 - 1780 MHz	2110 - 2200 MHz	90 MHz
n70	1695 - 1710 MHz	1995 - 2020 MHz	15/25 MHz
n71	663 - 698 MHz	617 - 652 MHz	35 MHz
n74	1427 - 1470 MHz	1475 - 1518 MHz	43 MHz

FR1 TDD (Time Division Duplex) Frequency Bands for 5G-New Radio

5G NR Band	Uplink Frequency	Downlink Frequency	Bandwidth
n38	2570 - 2620 MHz	2570 - 2620 MHz	50 MHz
n41	2469 - 2690 MHz	2496 - 2690 MHz	194 MHz
n50	1431 - 1517 MHz	1432 - 1517 MHz	85 MHz
n51	1427 - 1432 MHz	1427 - 1432 MHz	5 MHz
n77	3300 - 4200 MHz	3300 - 4200 MHz	900 MHz
n78	3300 - 3800 MHz	3300 - 3800 MHz	500 MHz
n79	4400 - 5000 MHz	4400 - 5000 MHz	600 MHz

FR1 Supplementary Downlink Bands (SDL) & Supplementary Uplink Bands (SUL) for 5G-New Radio

5G NR Band	Uplink Frequency	Downlink Frequency	Bandwidth	Type
n75	-	1432 - 1517 MHz	85 MHz	SDL
n76	-	1427 - 1432 MHz	5 MHz	SDL
n80	1710 - 1785 MHz	-	75 MHz	SUL
n81	880 - 915 MHz	-	35 MHz	SUL
n82	832 - 862 MHz	-	30 MHz	SUL
n83	703 - 748 MHz	-	45 MHz	SUL
n84	1920 - 1980 MHz	-	60 MHz	SUL

5G NR Frequency Bands in FR2

5G NR Band	Band Alias	Uplink Band	Downlink Band	Bandwidth	Type
n257	28 GHz	26.5 - 29.5 GHz	26.5 - 29.5 GHz	3 GHz	TDD
n258	26 GHz	24.250 - 27.5 GHz	24.250 - 27.5 GHz	3.250 GHz	TDD
n260	39 GHz	37 - 40 GHz	37 - 40 GHz	3 GHz	TDD

5G's Applications

• How Many Types of 5G Devices for End-Users? • 9 Benefits that 5G Can Provide • 5G Devices Finder

Augmented Reality (AR) and Virtual Reality (VR)

5G will reinvent digital media. The low latency of 5G will enable us to step into a high-resolution 3D world, make AR and VR applications both immersive and far more interactive. As we use these technologies, information, objects, and people will be all around us, instead of just in front of us, creating an intense emotional engagement.

Connected Vehicles - Remote driving and Self-driving

5G car connectivity enables vehicles to connect to each other, to the infrastructure, to network services, and to other road users such as cyclists and pedestrians. That means roads can be safer, faster, and more energy-efficient. In-vehicle infotainment will make journeys more pleasant too.

IoT - Cloud Robotics and Automation

Using the edge cloud, by offering highly reliable and low-latency networks, robots can undertake multiple tasks with the remote reconfiguration of the Programmable Logic Controllers (PLCs). Automation systems can help with quality control, using vision processing and machine learning in the cloud.

Healthcare - Telemedicine

High-definition video can also be used for telemedicine, enabling communications between patients and doctors. 5G can help to save lives, as the foundation of modern healthcare service.

Entertainment - Ultra HD 8K video and cloud games

Using 5G, it's possible to stream high definition video at 8K resolution without waiting for it to buffer. Online games via mobile networks respond immediately when using a 5G network.

Smart Cities - Video Surveillance & Drone

In smart cities applications, using real time high-definition video and AI-driven analytics, monitoring and inspection services can be carried out by drones equipped with high-definition cameras, with 5G enabling low-latency feedback and control.

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