What is 5G technology? The Benefits and Drawbacks of a 5G Network

What will 5G bring

Wireless technology has advanced fast since the turn of the century. Until recently, there were four generations of mobile communications on the planet. Operators are currently actively assessing the capacity of fifth-generation networks, which we anticipate will develop.

It’s easy to understand: there’s a ten-year rule. If we look back in time, we can observe that each new generation of mobile communications appeared around 10 years after the preceding one.

  • The first generation debuted in the early 1980s,
  • followed by the second generation in the early 1990s;
  • the third in the early 2000s,
  • and the fourth in 2009. 5G networks will cover the entire globe by 2020–2025.

Although 4G networks have not yet exhausted all possibilities and are thus not widely distributed, an advanced 5G network will soon exist.

The next-generation standard will considerably boost internet speeds, expand bandwidth, and incorporate a wide range of future technologies.

The fifth-generation mobile communication standard represents a new stage in the evolution of technology that will extend Internet access options.

Do we need 5G?

Everyone is talking about 5G technology. Despite technological warfare between China and the United States, 5G Internet, like many other technological advancements, is already here and will remain. Implementing a fifth-generation mobile network would transform the way we interact, increase the capacity of data highways, and allow common devices, such as refrigerators and automobiles, to connect in real time.

So, what exactly is 5G? Some individuals still don’t comprehend what 5G will do or how it will work. We’ll go through exactly what 5G implies, what benefits businesses may expect from this new standard, and how it varies from the current 4G LTE network.

Some primary 5G benefits are:

it increases connection speed,

it minimizes latency,

and exponentially increases the number of connected devices.

What Exactly Is a 5G Network, and How Does It Work?

What is 5G

5G is the fifth generation of wireless communication protocols and technology that allows you to access the Internet from anywhere using your mobile phone.

  • The 1G networks are no longer available; those ancient mobile phones could only talk.
  • SMS was launched by 2G technology, and our phones have gradually become a more common communication tool.
  • First came online connectivity (3G),
  • Then broadband (4G), which attracted real-time video reproduction (streaming) and augmented reality.

5G technology allows you to make phone calls, write emails, and surf the web at a faster rate than previously, while also allowing for more connected devices. Do you remember how fast the Internet was in your house two years ago? Was Wi-Fi much slower than it is now?

This is similar, but with mobile connectivity.

You may still be aware of how much your connection has improved when you begin modifying your phone’s 3G connectivity to take advantage of 4G. Because this is a new evolutionary leap, you can navigate at significantly faster speeds that allow you to see today’s sites without difficulty.

What does 5G mean?

This fifth generation of wireless communications tries to make accessing a mobile network as simple as opening a page. At such a high rate, we must upload Ultra HD films or 3D models without blinking. The official standard is already in place, and it promises to be 10–20 times quicker than today’s mobile connections.

The standard exists; the first mobile phone to support it has already been released, and carriers such as Vodafone have stated that they will implement it.

Today, 5G is an almost essential technology for surviving the electromagnetic bottleneck in large metropolitan agglomerations. They require greater capacity as the number of linked devices grows. We can connect, for example, an ecosystem of always-connected smart cars.

Alternatively, we can build the Internet of Things gradually.

What will 5G bring? The future of 5G technology

What new features, benefits, and applications would 5G bring? Broadband internet speeds have reached an all-time high and will continue to rise. 5G technology could be the next step forward. Using the internet will become more mobile thanks to 5G wireless technology.

It will be significantly faster than existing broadband speeds. This technology removes the need to worry about data caps and limits the data transfer pace, making it extremely handy.

This future technology has the potential to make living considerably more comfortable. Everything from business to pleasure and everything in between will help businesses and individuals save money.

One of the most important advantages of using wireless networks is that everyone in your family can connect regardless of where they are. This means that you and your family can collaborate on the same project from wherever you are in the world. It also enables everyone to enjoy high-speed internet access while traveling together.

Because you have this wireless network, you can share data with people even while you are not in front of a computer. This will be helpful for school projects or homework. Many devices, including PDAs, PCs, cellphones, and Blackberries, will collaborate to provide this access.

How fast is 5G?

The most significant advancement comes from 5G speeds.

The new fifth-generation allows for navigation at speeds of up to 10 GBps (gigabytes per second), which is ten times faster than major fiber-optic options. At this rate, it will be possible to download a complete movie in a matter of seconds.

More critically, it minimizes latency (system response time). Latency is the time it takes for a data packet to travel across the internet, or the time it takes for an action to arrive from the time it is performed until it is consumed. Although there is currently low latency, 5G promises to reduce it by 1 to 2 milliseconds.

Interactions with the web or cloud will be practically immediate as a result. Aside from download rates, if you click on a photograph, it will be downloaded from the cloud and will take the same amount of time to load on your mobile device as if it were already in your memory. A real-time engagement experience could also transform mobile applications.

For example, it is critical to reduce the response time of an autonomous car to improve the safety of both occupants and passers-by.

We will be able to dramatically increase the number of connected devices thanks to this new technology.

Vehicles, industrial robots, urban infrastructure (speed bumps, highways, bus stops), or other household electronics (in response to a washing machine, fridge, or even a vacuum cleaning robot) will connect to share information in real time.

You’ll see the key distinctions between 4G, 4G+, or LTE, and 5G technology. The 5G speed of this new standard is substantially faster, which means you can download anything nearly instantly.

Xiaomi announced that their first 5G phone would have a rate peak of two gigabits per minute, which might entail being able to upload or download a 15-second Full-HD film in less than a second. However, there is speculation that the most recent technological leap could be as high as 20 Gbps (gigs per second).

As previously stated, the 5G network has not yet been implemented. We can speculate or share our opinion on the benefits it may provide. Still, we won’t know for sure until it’s installed and used.

Qualcomm provided us with an excellent summary of the transition from 4G to 5G a few months ago. For them, 4G connected people, and 5G is a fresh leap that permits “connecting people to everything around us,” encouraging not just communications but also automotive, medical, health, and housing.

What's Pros and Cons of 5G Internet?

5G Advantages and Disadvantages

Yes, fifth-generation technology will be introduced. The engineers are working on it, but what is it about? Will it have any benefits, or will it have any drawbacks?

Fifth-generation technology has the potential to enable the “Internet of Things” as well as faster and more reliable connectivity. As phones and other gadgets become more powerful and expensive, and applications generate an increasing amount of data, the systems that connect them must evolve to keep up.

As a result, telecommunications behemoths are competing to implement 5G wireless network technology.

Though some have criticized 5G for its expected high costs, there is widespread agreement that future technology will provide users with faster and more dependable connections. It may also provide the additional bandwidth required to build what we call the “Internet of Things,” a system that connects phones, computers, robots, cars, and a variety of consumer products and infrastructure outfitted with sensors.

5G could even usher in a new era of “smart cities,” where power grids, traffic signals, and emergency services are all linked to reduced inefficiencies.

Benefits of 5G Technology

Each new generation of wireless technology has provided faster and more reliable cellular and Internet connections.

In the 1980s, first-generation technology made communicating via cellular phone possible.

The next generation, 2G, enabled more efficient and secure phone calls and introduced cellular text messaging.

3G marked the start of the smartphone age.

4G/LTE gives us high-speed connections that produce high-definition video transmission potential on our phones.

5G is projected to attract three significant benefits:


The amount of data traveling on a network is called bandwidth. As a result, under ideal conditions, a gadget can experience maximum rates. However, it is unlikely that this optimal circumstance will occur.

As a result, if we focus on rates, 5G is 20 times faster than 4G. This means that by the time you download any information using 4G (think of a file like a photo or a video), you may have downloaded the same information 20 times using a 5G network.

The disparity in both circumstances is striking.

The 5G has a maximum download speed of 20 G/s, while its predecessor has a speed of 1 Gb/s.

Even though these speeds will fluctuate depending on the instant because they pertain to a system that does not move, the gadget is currently moving, and they will alter as it travels on a mode of transportation.

There is no such thing as an average speed. Because so many elements influence it, they may vary depending on the situation.

Furthermore, it is now hard to compare. Since 5G has not yet been formally introduced, it is possible to compare these rates once it is. Until then, it is a paper comparison, although some of its benefits are already recognized, as we previously stated.

More stable connections

Were you disconnected because you were near a microwave oven? Interference won’t be an issue anymore. Our devices will become far more sensitive to signals.

This is significant news for men and women who use the Internet daily to manage programs and duties.

Incredible advantages for the Internet of things

4G technology would not be able to sustain the data flow required for numerous things to connect to the Internet.

For 5G, the opposite is true. Its design allows information channels to obtain additional information, which is critical for connecting more things to the community.

Improved latency and priority on security-critical devices

This is critical in the case of self-driving cars, for example.

Connectivity, Intellect, and IoT

Smoother connections will enable a better link between our gadgets, which means a faster response rate, bringing their connectivity to an all-time high.

Operations and running

The operation was one of the first differences we discovered between 5G and 4G. The new mobile system employs distinct 5G radio frequencies. In this way, it does something that earlier generations could not. As frequencies increase, the radio spectrum is divided into bands, each with its own set of characteristics.

It uses frequencies of less than 6 GHz in 4G networks. In contrast, the new technology will be expensive, with prices ranging from 30 GHz to 300 GHz. High frequencies can provide numerous advantages, mostly by supporting huge data capacity at a high rate.

As a result, they might be used to increase the demand for bandwidth. These frequencies can also be configured with other wireless transmissions without interfering. It differs considerably from 4G towers, which transmit data in all directions. It is something that wastes energy.

It should be remembered that 5G uses shorter wavelengths. This contributed to developing antennas that were smaller than those now in use. Something that would contribute to the over 1,000 devices per meter that 4G provides. It enables you to transfer data at a faster rate to a larger number of consumers.

Another significant distinction between 4G and 5G networks is that 5G networks will grasp the requested information more easily. When not in use, this allows you to convert to a lower power mode. And they’ll go back to a more dependable way when they need to do something that requires a larger volume.

5G Drawbacks


ENISA, the European cybersecurity organization, warned about the severe risks that 5G networks could pose due to poor security guarantees. They stressed that as the quantity of users, data, and network bandwidth increased, so would the threats from 4G networks.

Reduced latency is also a concern. We can apply almost any equipment remotely via the Web. Hackers can use those connections to change the address of a car or turn on a family oven, for example, making cyber-attacks more deadly.

We must wait and see if cybersecurity experts’ warnings prevent hackers from using the 5G connection.

To prevent unauthorized access, Internet of Things (IoT) devices and sensors will require more sophisticated authentication, rendering them vulnerable to hackers.

The revolution is such that earlier gadgets, even current ones, can no longer keep up with the rate and volume of information circulating. As a result, we’d have to replace them.

The high cost of 5G infrastructure

When did you first hear about fiber optics? About six decades ago, however, it was only recently that it gained popularity. Did we agree with the notion only when we built it at a cost that did not increase our invoices? However, there is a chance that the same situation will occur here as well.

For this reason, it is important to remember that there are still locations where the Internet does not reach. What happens if the network becomes unusable in some areas due to current conditions?

Will the obstacles be removed? We are not only referring to the most underprivileged countries or places, but also to residents of developed countries who are difficult to reach due to their geographical position.

Health dangers and concerns

For many years, the telecommunications industry and government have underinvested in security research on electromagnetic fields (EMF) and radio frequency (RF) and their effects on human health.

Even though the World Health Organization (WHO) and the International Agency for Research on Cancer (IARC) said in a joint press release in 2011 that EMF radiation was harmful to humans, this neglect continues.

Drones, autonomous vehicles, blockchains, the Internet of Things, supply chains, smart homes, smart meters, smart gadgets, smart buildings, and smart cities will all rely on 5G networks for digital communication.

The allure of 5G’s lightning-fast download speeds will be universal. Nonetheless, there will be a hidden cost of invisible RF broadcasts, electromagnetic radiation, and constant reception and transmission of Wi-Fi signals, which most people assume to be harmless.

Is 5G dangerous? 

People wonder if there are any dangers or health problems associated with 5G. Is it possible that 5G will make you sick or kill you? Wireless technology was categorized as a degree 2B carcinogen by the World Health Organization, which is a very broad classification.

According to the WHO, substances are “potentially carcinogenic to humans when a causative association is judged credible but chance, bias, or confounding cannot be ruled out with acceptable confidence.” Coffee is included in this category since it is not dangerous.

Despite the WHO’s statement that “studies do not suggest that environmental exposure to RF (radio frequency) fields raises the risk of cancer or any other disease,” certain organizations warn of the health risks of cell phone waves.

For example, the non-governmental organization Ecologists in Action recently issued a warning that the 5G network was implemented “without studying its health and ecological implications, despite powerful and numerous scientific projections to use the precautionary principle.”

At this time, with scientific data available, 5G will bring more benefits than concerns.

When will 5G be available?

When is 5G comingWhen is 5G coming? The fifth generation has arrived! But if you still don’t grasp what it is or what you’ll do with it, stay and listen.

5G in 2019-2021

Most nations will have completed the transition to 5G by 2020, but preliminary experiments with 5G are currently happening in a few areas.

In March 2020, the first definitive benchmark for the entire 5G system (terminals, chips, servers, radio components, security elements, applications, and so on) is scheduled to be available.

2019 was the year of testing, and terminals are now available. The European Commission has set a target of having a 5G policy in at least one major city in each Member State by 2020.


We have no idea when commercialization of 5G devices and software will occur.

It is important to remember that, in addition to having 5G cellular phones in stores, a new communication network that is more advanced than the old one must be established.

As a result, its implementation is likely to be slow. The year 2022 could be a good starting point for the massive application of the technology.

With all the excitement around the arrival of 5G, there is a chance that this technology will not be seen until 5G is fully incorporated into people’s lives. The technology industry provides a taste of what’s to come, as we’ll witness the real tale in 2020-2021 and beyond.

With the full adoption of 5G networks on cellular in 2025, they would swiftly exceed 1 Gbps, reaching greater peaks, despite not reaching the theoretical maximum of 10 Gbps.

As you might expect, to guarantee cheap data protection, information limits on cellular rates will be crossed out by 2025, making way for fees on unlimited data.

What is the difference between 3G, 4G, and 5G networks?3g 4g 5g

One of the most significant technological developments in the mobile communication sector has been the transition from 3G to 4G. Customers are now more willing to use mobile data roaming (no longer waiting for a web page to load!). It enables rapid downloads, resulting in superb connectivity and ease of our devices.

Almost all of today’s smartphone features, from instant messaging to mass multiplayer games, are products of the 4G network.

Fifth-generation wireless network technology, or 5G, is being implemented in major cities around the world. By 2024, over 1.5 billion mobile users will be using 5G wireless networks, accounting for 40% of current worldwide activity.

With 5G on the horizon, there will be another giant leap forward in mobile data, and many customers and businesses are excited about the possibilities.

GSMA Intelligence data shows how quickly global traffic can expand across different networks:

2018: 43% of 4G mobile users,

2025: 59% of mobile users on 4G, 15% of mobile users on 5G.

But what is the distinction between 3G, 4G, and 5G? This chapter will examine each of them, compare their speeds, and assess how smartphone usage has changed over the last 20 years.2g, 3g, and 4g comparison

What does 3g, 4g, 5g mean?

The letter “G” stands for “generation.” When connecting to the Internet, the speed is determined by the signal strength, which is displayed on any mobile device in abbreviations such as 2G, 3G, 4G, 5G, and so on. Each generation of wireless broadband is defined as a collection of telephone network standards that describe the system’s technological implementation.

Wireless communication strives to provide high-quality, dependable connections, and each new generation represents a significant step forward in this direction. Because of the rapid advancement of mobile technologies, mobile communication has grown in popularity lately.

To compare 2G, 3G, 4G, and 5G, we must first understand the key characteristics of each of these technologies. So, what exactly is 1g, 2g, 3g, 4g, and 5g technology?

1G (First Generation)

The first generation of 1G networks arrived in the 1980s, featuring only voice analog services. For 1G networks, the maximum data transfer speed was around 2.4 KBPS.

2G (Second Generation)

In Finland, the 2G network was launched in 1991, ushering mobile phones into the digital age. 2G includes call and text message encryption, as well as SMS, image messaging, and MMS.

2G refers to the second generation of GSM-based mobile networks. Radio transmissions in 1G networks were analog, while those in 2G networks were digital. Multiplexing enabled numerous users to work on the same channel, resulting in 2G capabilities.

We used cell phones in addition to voice when using 2G for data transmission. 2G’s primary features include:

Data speeds are up to 64 kbps,

Digital signals instead of analog signals,

Services such as SMS and MMS (multimedia messaging) are supported,

Better quality voice calls,

The bandwidth is of 30 to 200 kHz.

3G (Third Generation)

In 1998, a 3G network with data, video calls, and mobile Internet was established. In many major cities, a “slow” network is currently considered the pinnacle of technology until 4G emerges. 3G networks achieve speeds of 2 Mbps on stationary or fixed devices and 384 Kbps on moving vehicle devices.

The basic network architecture for the 3G standard is the Universal Mobile Telecommunications System (UMTS). The 3G network combines 2G network characteristics with new technology and protocols for much greater data transfer speeds.

The original method has been upgraded to achieve rates of up to 14 Mbps using packet switching. A broadband wireless network was employed, which enhanced data transmission accuracy.

It operates at 2100 MHz with a bandwidth of 15-20 MHz. Some significant characteristics of 3G:

Up to 2 Mbit/sec speed capability.

An increase in bandwidth and data transfer rate.

Sending and receiving large emails.

Significant potential and broadband capabilities.

4G (Fourth Generation)

The newest cellular network standard, known as 4G, was introduced in the late 2000s and is 500 times faster than 3G. It allows for high-definition mobile television, video conferencing, and other features.

When the device is moving, such as when you walk with your phone or drive, the maximum speed is 10 Mbps, and when the device is stationary, the maximum speed is 100 Mbps. The max speed for 20 MHz bandwidth is 400 Mbit/s.

However, the observed acceleration is often between 10 and 100 Mbit/s.

Some features of 4G LTE

Support for interactive multimedia, voice, and video.

high speed, high bandwidth, and low cost per bit (up to 20 Mbps).

Global and scalable mobile networks.

Individual and multi-user networks.

As more and more people gain access to mobile devices and the Internet of Things expands, by 2024, we will need 24 billion devices to support cellular networks. This is where 5G comes into play.

3G vs. 4G

A 3G tower can split the signal and provide quick and reliable service to 60-100 people.

A 4G tower, on the other hand, may service 300 or 400 people. Engineers and programmers load as much digital data as possible into each radio transmission as network generations evolve to maximize network speed and efficiency.

The distinction between these generations is that the network is improving in comparison to prior Internet generations, not that 4G is twice as good as 3G.

Network evolution

For many years, 4G has been the most reliable network, serving millions of clients globally.

4G, like its forefathers 3G and 2G, is based on the same infrastructure that powers your cell phone’s internet and voice connectivity. 4G was brought to homes via cellular towers that covered the entire geographic area (e.g., city, village, town, etc.).

All the 4G towers built across the country enable us to contact someone promptly by phone or send a short email message that arrives at the address at the same minute. Because of the frequency of the wavelengths they use, these towers can service our gadgets over large distances.

However, 4G does not support emerging technologies such as artificial intelligence and self-driving cars.

These ungainly computer gadgets, products, and services require increased capacity and Internet speed. As a result, the next generation of wireless signals is still in demand to advance to the next stage of data processing, business, and Internet connection.

5G (Fifth Generation)

5g network

The most straightforward understanding of 5G is that it will be faster than 4G. 5G will be faster than 4G, with most predictions putting it in the 1-10 GB/s range.

This considerable boost in speed allows users to interact with technology in whole new ways, connecting people to the Internet of Things (IoT) and enabling seamless device integration across all layers of society.

One of the most important 5G anchor sites.

5G could pave the way for further technical breakthroughs, such as the mainstreaming of block circuits and the expansion of our existing AI capabilities.

5G uses radiometric millimeter frequencies ranging from 30 GHz to 300 GHz. Testing of the 5G band in mmWave yielded results 500 meters away from the tower. Deploying 5G in millimeter-wave-based environments can enhance total coverage by using smaller cells.

Small cells can provide high-speed coverage with reduced latency via beam generation.

One of the key advantages of 5G is low latency. A scalable orthogonal frequency division multiplexing topology is used in 5G. (OFDM). This greatly advantages 5G, which can delay up to one millisecond, with realistic estimates of 1–10 seconds.

5G will be 60-120 times faster than 4G.

The active 5G antenna, when combined with the 5G massive MIMO, improves connectivity and user experience. Large 5G towers are being built to address propagation issues in the mmWave frequencies.

Furthermore, 5G with a network segmentation design enables providers to deliver on-demand connections to their subscribers under the Service-Level Agreement (SLA). Latency, speed, dependability, quality, service, and security are all configurable network capabilities.

Frequency bands 3g, 4g, and 5g

4G is more spectrally efficient than 3G, while 5G is more efficient than 4G. Each generation generates more data per hertz than the one before it.

3G operates at frequencies of up to 2.1 GHz, 4G at 2.5 GHz, and 5G at 95 GHz.

As a result, there is a lot of buzz surrounding 5G. The fifth generation wireless network addresses the transition from mobile Internet to large-scale IoT (Internet of Things).3g 4g 5g frequencies

The capabilities of the 5G network are far faster than those of earlier generations. As a result, they can connect more devices than ever before, such as connected cars, attached homes, and smart cities. Concurrently, the speed and dependability of 5G will enable a new era of healthcare.

Furthermore, 5G networks will use “small cells” rather than the “macrocells” used in 4G networks. This means they are smaller, use less electricity, and can be deployed much more quickly.

We receive the signal from the frequency employed by any mobile phone network. Because low rates are the most dependable and may penetrate obstacles such as buildings, 3G is often more widely available than 4G. Higher frequencies are more direct, but they also scatter quickly inside objects.

Lower frequencies will be sought after by mobile providers seeking to deliver more reliable services. Those who want their consumers to have faster download speeds will strive to offer greater prices as well.

Because 5G will use higher frequencies with a more limited range, additional 5G towers will be required to guarantee network dependability. However, because they are smaller and do not require the installation of a tower, they will be placed on buildings and lampposts.

5G Internet Providers

5G internet providers

As fifth-generation networks spread across the country, 5G internet providers will leverage these wireless systems to improve the speed and performance of your home internet. They can develop alternatives to current internet service providers that use fiber, cable, DSL, and satellite technology.

5G’s millimeter-wave signals will allow it to reach far quicker rates in cities and heavily populated areas than fiber and cable operators can. The fifth generation has the potential to totally transform the internet by bringing extremely influential fixed-wireless networks that we will employ in our homes.

5G may pave the way for significant advancements in the industrial and commercial sectors. Qualcomm is presently working on speedier phone chips.

We anticipate that 5G will drastically reduce health-care expenses and increase efficiency by increasing telemedicine and improving VR capabilities. Motion detectors and automation can also be used in factories and farms to streamline operations.

All four major carriers have launched 5G services in the majority of major metropolitan areas. T-Mobile also claims to have America’s first nationwide 5G system (but it is also the slowest). However, the fifth generation is still a promising technology. Although new phones and services are being introduced at a rapid pace, most analysts anticipate that 5G will not become widely available in the United States until 2025.

List of 5G internet providers

The majority of the leading 5G service providers are currently developing their networks or have already begun to offer solutions. Here is a list of 5G home wireless internet service providers to consider in 2021.


AT&T is currently or is soon to be available in parts of virtually every nation, excluding Hawaii, Iowa, North Dakota, South Dakota,  and Wyoming.

Up to 1.5 Gbps speed (1,500 Mbps).

Available in 335 markets.


We have Sprint‘s mid-band network in Atlanta, Chicago, Dallas, and Phoenix as of 2018.

213 Mbps speed on average.

Live in 14 cities.


T-Mobile (which currently includes Sprint) boasts the most impressive policy of any supplier. T-Mobile claims to be the only “nationally” available 5G provider, although much of its network uses low-band frequencies. T-low-band Mobile’s network has 200 million subscribers.

Up to 600 Mbps speed.

Available in almost 6,000 cities and towns.


Thirty-one significant cities, such as Los Angeles and Chicago, can use Verizon’s high-band 5G network. The system is compatible with Moto Z2, Z3, Z4 Force phones, Samsung Galaxy S10, Galaxy Note 10+ Verizon devices.

Up to 953 Mbps speed.

Ultra-Wideband is available in 34 cities and 13 NFL stadiums.

Is there any internet provider that uses 5G in my area?

The availability of fifth-generation internet is restricted while several providers are attempting to expand their coverage and offerings. However, major cities are receiving first dibs on those expanding networks.

In late 2019, AT&T, Verizon, T-Mobile, and Sprint all launched 5G wireless networks. As a result, new technology is now available to clients in certain places across the United States.

Mobile phone makers such as Samsung and Motorola have also released 5G-compatible phones, allowing you to connect to any network nearby. Many people believe that a 5G iPhone will be released soon.


Cable companies are making modest moves toward 5G. Charter and Comcast have revealed plans to advertise Samsung’s new Galaxy S20 phone to Verizon’s 5G network customers.

Comcast also intends to offer unnamed 5G data options. Meanwhile, Charter has announced that it is considering the launch of a new network.

However, broadband has one critical advantage that 5G does not have: near-ubiquity. Verizon, AT&T, and many other carriers have only recently begun to roll out 5G and plan to continue expanding coverage over the next few years.

Broadband is available in almost every town and suburb, although not in some rural areas. To truly compete with broadband, 5G must be available everywhere, which will take some time.

“The repercussions will eventually hit metropolitan areas, followed closely by increasingly populous suburbs,” says Babak Beheshti, head of the New York Institute of Technology’s College of Engineering and Computing Sciences. “5G may not have an impact on rural and less densely populated places for some time.”

If anything, 5G will encourage today’s home broadband providers to expand their offerings. More competition, in particular, is needed in the cable industry to improve its historically poor customer service.


5G technology is both exciting and promising. Ultimately, 5G networks promise to change the way we consume information and connect with the world around us. However, the spread of 5G technology is still a way off—but when it finally arrives, it will add a host of new possibilities to our increasingly connected lives. We can’t wait for that future to arrive!

One thing we do know for certain about 5G is that it isn’t a replacement for 4G LTE or any other cellular network. It’s not the beginning of the end for those networks—rather, it’s an evolution that could revolutionize the way we communicate with one another and the experiences we have on a global scale.

5G promises to take our wireless communication infrastructure to a whole new level—but it’s also an unprecedented challenge for engineers.

This is an area of technology that will change a lot in the upcoming years, but it’s something to pay attention to. Hopefully, we’ll see some of the above benefits manifest themselves during this period.