Mythbusting: Will the Shutdown of 3G Cause Digital Poverty?

 Have you seen the recent news reports about the withdrawal of 3G by Mobile Network Operators – And how this move will result in ‘millions of people’ being plunged into ‘digital poverty’ by disconnecting them from the internet?

Much of this reporting goes unchallenged and could be seen as scaremongering – Will the consequences of withdrawing the 3G service actually be this dire? 

How much is 3G actually still used? 

3G is actually rather old by tech standards. We’ve had 2 further generations of mobile technology since 3G (4G and 5G, obviously). And 6G isn’t far behind them. 

Can you believe that Vodafone has been using their 3G service for 18 years? What else in the world of technology is around for so long! Vodafone also happens to be the first MNO to start the 3G withdrawal process. 3G data traffic on their network accounted for just 4% in January 2022. In 2016 it was over 30%. 

Did you know that 4G is available to over 99% of the UK’s population whilst they are outdoors? Unfortunately this does fall to between 80 and 87% for geographic coverage. Although, if we’re comparing, 2G only covers 85-93%. We use 2G for basic data like voice and text services. 

When will we lose 3G and 2G services? 

The government, along with all the major mobile network operators, have agreed that by 2033, 2G and 3G signals will be phased out. 

You might be wondering why 3G is being withdrawn first when 2G is obviously older. Well, there are less devices in operation that are critically dependent on 3G services. 4G has been more successful, mainly due to 3G being negatively affected by overpriced spectrum licensing.

2G, on the other hand, is still widely used for basic voice services and limited data for mobiles, as well as other applications like Smart Metres in home energy monitoring systems and similar solutions making it a great low-power fallback option. Therefore, 2G will be around for much longer than 3G. 

The gradual withdrawal of 3G services will differ slightly by mobile network operator. You can find out more information on your mobile operator’s plans to phase out 3G below:

  • Vodafone UK began the withdrawal of 3G at the start of this year and aims to have phased it out by December.
  • Three UK are phasing out their 3G network service gradually over the next 2 years, with it being switched off by the end of 2024.
  • EE are starting their 3G withdrawal by first moving customers off 3G, with a view to switching the 3G network off early next year. 
  • O2 are yet to publicly announce anything but are part of the plans to switch off both 2G and 3G by 2033 and are likely to follow a similar timeline as those above. 

Is the phasing out of 3G a good thing or a bad thing? 

The recent news reports we alluded to earlier would suggest that the withdrawal of 3G services would disconnect a lot of people from the internet and result in digital poverty for millions. But is the phasing out of 3G really a negative thing, like these reports suggest?

Let’s take a closer look at a couple of the worries surrounding the 3G switch off, and hopefully alleviate them.

‘My 4G signal is weak – Will I be unable to access mobile data?’

We can totally see why this would be a worry. If you find that your 4G signal coverage is weak in your area and your handset often falls back to 3G, it makes sense that you would be concerned that you would be disconnected from mobile data altogether once 3G is switched off. Especially if your fixed line broadband was also poor locally. 

What you need to bear in mind is that when the 3G service is switched off, the spectrum that would have been used for that will then be used for 4G and 5G services instead. This means that those who often find their weak 4G signal defaults to 3G, would see an improvement in 4G signal once 3G has been phased out. Happily, this also means that mobile broadband speeds would also improve.  

Of course, this does depend somewhat on the operator itself and their approach in your area. There is a chance that some people could have issues if their operator wasn’t to prepare the updated coverage after 3G is phased out. Let’s remember that that’s not in the best interests of the operator either, and all MNO’s are committed to minimising any problems caused by the withdrawal of 3G services. 

Don’t forget that a weak 4G signal can actually still be better than a strong 3G signal. The data capability available to you isn’t always accurately depicted by how many signal bars you see on your screen. 

It’s also worth noting that current plans for mobile connectivity mean that coverage and performance are only going to improve. The Shared Rural Network, an industry led project worth £1 billion, is working hard to bring 4G to 95% of the UK in geographic coverage by the end of 2025.  

What do the operators themselves have to say about the potential problem of weak 4G signal? 

It would seem that UK mobile network operators are prepared for the phasing out of 3G and the subsequent effects on 4G signal. 

Vodafone says:

“By repurposing the 3G network – we can grow the UK-wide reach of our more energy efficient 4G and 5G networks instead – this means faster data speeds, higher quality voice call services and a chance to continue improving connectivity in previously ‘cut-off’ areas, including rural communities and the London Underground.”

  • They will be optimising their 4G and 5G networks as a part of their phasing out of 3G. In fact, some of their 3G spectrum has already been re-directed as a part of this plan. 
  • They have also contacted customers of theirs who could be impacted by issues once 3G has been switched off. So no news is probably good news! 

Three says:

 “Retiring 3G enables us to repurpose network assets where our customers need them (4G&5G) … this plan has been carefully developed by our network teams to ensure that it benefits our customers.”

  • A tiny 3% of their network traffic was 3G so they expect minimal disruption
  • They believe their customers can expect “faster downloads, better quality streaming and a more reliable experience” when 3G is switched-off.
  • Ahead of the 3G switch off, Three are upgrading many of their legacy 3G sites and repurposing them for newer technologies.
  • They suggest that customers who have a 4G / 5G compatible handset will not be impacted by the phasing out of 3G. 

EE says:

  • Whilst the re-farming of 3G will be a process that takes time, the spectrum used for 3G is planned to be used for 4G and 5G, just not immediately. The locations that have the highest need (those that are congested or at risk of congestion) will be the initial focus for the reuse of 3G spectrum.
  • This operator is focusing on making sure that their 4G has enough capacity to cope once 3G has been switched off. In areas where they have both a 3G and 4G service, the 3G doesn’t generally reach beyond that of their 4G services. They believe they have the tools to identify if any work is needed on spectrum and in what areas so that they can be prioritised.
  • They are currently refreshing their 4G and 5G network and replacing some 5G vendor equipment. They need to finish this network refresh before they can re-farm the 3G spectrum. Once the work has been completed, it will be easier to use the remaining 5MHz from the 3G spectrum. Upgrades will be a mix of remote and site visits depending on configuration. Only modernised sites will be able to re-farm the 3G spectrum to be used for 4G and 5G, hence why the process will take some time. 

O2 says:

Not a lot… Yet! As we said above, O2 haven’t publicly announced their plans to phase out 3G services like the other operators have so it’s all a bit quiet from the O2 camp. 

‘I have an old device that doesn’t have 4G capabilities – How will I get online when 3G is phased out?’

The DPA (Digital Poverty Alliance) is concerned that people with older, more basic devices that don’t have 4G capabilities will fall into ‘digital poverty’ once 3G is phased out if they rely on that device to get online. 

But is this a legitimate concern? Here are some reasons why this may be an unfounded worry. 

  • There are basic phones that have 4G capabilities that have been available on the market for a number of years. They are generally lower cost than more elaborate devices, at around £20-£50 for the handset.
  • Operators often offer bundles with cheap plans and almost free handsets on the more basic models
  • Some operators and charities give more vulnerable users basic handsets for free, so they only need to pay for the tariff

That being said, we realise that there will be people out there that may currently have a device that doesn’t support 4G. There are options out there so anyone who is worried have a shop around – A basic 4G compatible handset and monthly plan for less than £10 a month are out there. 

The best option if you are concerned is probably to ring your current operator and see what they can offer you. 

How Can You Make Sure You’re Not Affected by the 3G Switch Off? 

We’re not saying that nobody will be affected by the phasing out of 3G services. There are always going to be the odd few where unique cases mean that something goes awry. Let’s bear in mind that some handsets will have better reception than others! 

We’re feeling hopeful that the operators will have planned the 3G withdrawal properly and will minimise the impact on their customers. I guess we’ll find out! 

Saying that, here are a few things you can look out for to try and minimise any disruption to your coverage and connections:

  • Ensure your current handset (or any new one you buy) has VoLTE (Voice-over-LTE) capability. Not all 4G handsets can make calls over the same generation of network technology, but if your handset supports the above it will be helpful.
  • Choose a handset that supports Wi-Fi Calling. Whilst not as common on the more basic handsets, if you have a home broadband connection then this would come in very handy.
  • Anyone with a 4G handset having issues after the 3G switch off should perhaps consider changing mobile operator and see if that fixes the problem. Each operator will have different coverage, varying by site, so it might be worth switching around. This also goes for the above – If you have a VoLTE or Wi-Fi Calling enabled handset but are having issues, it could be the operator.
  • Remember that when making calls and texts, 3G/4G handsets will fall back to 2G if having trouble anyway. 

Despite the sensationalised articles about the phasing out of 3G services in headline news, try not to worry. We deal with technological advances all the time in this modern world. You could choose to see the withdrawal of 3G as an upgrade to 4G/5G instead of a negative.

There may well be teething problems for a small percentage of mobile users, but we’re pretty sure that mobile operators will find a solution that works for all when the time comes to switch off 3G services. 

Small Rural UK Businesses Damaged by Unreliable Broadband

The Federation of Small Businesses recently published a report highlighting how rural businesses are struggling with the ‘cost of doing business crisis.’ Not only are these rural businesses facing growing energy costs and problematic transport links, but they are also being hit with unreliable broadband. 

Could your business function without reliable broadband? 

Think of all the ways your business, whatever the industry, depends on a strong internet connection. How much disruption would unreliable broadband cause to your business? Effective internet access has become as vital as other utilities to businesses and homes – Yet businesses run from a rural area don’t appear to have a connection they can rely on. 

The report highlighted a range of issues these small rural businesses are facing, but here at Geekabit our focus is always on connectivity. This report illustrates that for small rural businesses:

  • Almost a third (32%) report issues with the reliability of their broadband (in comparison to 17% of urban businesses).
  • Twice as many rural businesses reported that unreliable broadband has affected their ability to contact customers (14% vs. 6%), reduced the competitiveness of their business (11% vs. 5%), and led to a loss of business or sales (10% vs. 5%).
  • Only 58 per cent of rural small businesses state that the speed of their broadband is sufficient for their current and future business needs.
  • 43 per cent of rural-based businesses have not yet changed their transport habits because of the insufficient local infrastructure to support electric vehicles (e.g. charge points).

Small rural businesses have a lot to offer their communities and industries. They shouldn’t have to face a loss of sales because of unreliable broadband. 

What Can Be Done for Small Rural Businesses With Unreliable Broadband?

There are a few different recommendations from the FSB to help tackle the negative impact of poor broadband connections on small rural businesses.

Update the Government USO

One recommendation from the FSB for tackling the issue of unreliable broadband in rural businesses would be for the government to update their current USO (Universal Service Obligation) minimum requirements for both upload and download speeds.

The current minimum requirements in the governments USO is 10 Mbps download speeds and 1 Mbps upload speed. The FSB doesn’t specify in their report what the updated speeds should be, but with the average download speed being approximately 79.1 Mbps we would think the USO needs to be higher than the 10 Mbps download speed deemed to be decent enough. Indeed, the European Union has plans for the universal download speed to be 100 Mbps by 2025. 

UK law states that every home and business has the right to a decent, affordable broadband connection, which is currently the 10 Mbps stated in the USO at a price of no more than £48.50 per month. 

But is that 10 Mbps download speed enough for a small rural business to function? Of course, it does depend somewhat on what type of business it is. A small boutique shop that only sells to customers in person might not need as high a connection as a photography and video editing business. 

Unfortunately, that USO hasn’t even managed to reach every UK location. There are tens of thousands of premises still unable to access download speeds of 10 Mbps due to their remote location – Largely due to the costs involved to create the necessary infrastructure. These places find themselves unable to connect to fixed line or fixed wireless services, whilst also being out of reach of suitable 4G/5G coverage. Making the necessary upgrades to these areas could cost hundreds of thousands of pounds if not into the millions. 

For this reason, just raising the minimum download speed in the USO isn’t going to be a magic fix for all rural businesses struggling with ineffective broadband. The infrastructure needed to really make a difference will take time and money to implement. Remember that this is also funded by the industry itself – Currently ISP’s BT and KCOM – Who have already committed to big legal and financial responsibilities by supporting the government’s USO scheme. 

At the end of the day, every business, including small rural businesses, deserve – And have the legal right to – decent broadband. And perhaps the USO figure of 10 Mbps isn’t cutting it now that we are doing business in a more connected world. A ‘decent’ broadband connection needs to reflect the individual needs and digital demands of individual businesses. Amongst other things, businesses need a strong connection to:

  • Communicate with customers – Online presence is essential in this day and age
  • Take online and mobile payments – Very few people pay using cash, and more customers are opting to pay via their smartphones
  • Send and receive large amounts of data 
  • Utilise E-commerce websites and ordering
  • Transmit orders to warehousing 
  • Connect via video conferencing

Project Gigabit Budget

The government has been trying to shrink the gap between the USO minimum speeds and the average internet speeds enjoyed in other areas with their Project Gigabit rollout. 

This aims to provide nationwide coverage by 2030 (nationwide meaning around 99%). 

The FSB recommends that the DSIT (Department for Science, Innovation and Technology) should take a proportion of the remaining budget allocated to Project Gigabit and use this to help those in hard to reach areas to connect to superfast broadband. 

LEO Satellite Broadband

Let’s not forget the possibility of LEO based satellite broadband like Starlink also being used to help those in particularly problematic areas. 

With more launches planned, this satellite network is only going to grow and could potentially help rural business (and homes) connect to more reliable internet.

The Shared Rural Network

There is also the Shared Rural Network scheme which is putting £1 billion into expanding 4G coverage. The FSB recommends that the DSIT ensures that the target of 95% of the UK having 4G coverage by 2025 is met. 

As part of the Shared Rural Network, our Wi-Fi experts here at Geekabit are helping to implement a rural 4G broadband scheme in West Sussex

Through this scheme, West Sussex businesses that are currently suffering from the slowest broadband speeds (10 Mbps or slower) are being supported to get online with an alternative 4G mobile broadband solution.

This 4G solution on offer to the county’s businesses uses 4G mobile data to connect their business premises to the internet in the same way that a smartphone sends and receives information. The solution uses a single, professionally mounted external antenna which is installed at the qualifying property. The external antenna can deliver a 4G signal directly into a newly supplied router, which then projects the connectivity in the form of Wi-Fi around the property, in the same way that conventional broadband works.

This investment in digital structure is part of the council’s plan to support a sustainable and prosperous economy, and businesses are already seeing huge benefits from using mobile connectivity. 

Get in Touch

If you own a rural business and are struggling with broadband connectivity then get in touch with our Wi-Fi experts today. Our professional engineers in Hampshire can advise whether 4G mobile broadband or Starlink Satellite broadband could help your business.

London Underground: 5G Deployed by Virgin Media O2 UK 

Last month, VMO2 became the last of the four primary mobile providers to begin their deployment of their ultrafast 5G mobile broadband service on the London Underground. 

Their 5G mobile broadband has been deployed on the:

  • Central Line – Between Queensway and Holland Park
  • Northern Line – Between Kentish Town and Archway 

5G Mobile Broadband on the Central Line

If you are a commuter on the Central Line, the Underground tunnels between Queensway and Holland Park now have 4G and 5G services following the new roll out. 

You should experience seamless connectivity when travelling through these stations. 

Nestled between Queensway and Holland Park is Notting Hill Gate Station, which has now been upgraded to be a fully 5G station. This means that Central Line platforms and ticket halls at this station will now have this latest mobile network available. 

The stations at Queensway and Holland Park have now had 4G introduced. 

With thanks to https://www.london-tube-map.info/central-line/ for the image

5G Mobile Broadband on the Northern Line

As a commuter on the Northern Line, you should now be able to connect to 5G from Archway to Tufnell Park stations. 

Kentish Town station will also now have 4G connectivity. 

With thanks to https://www.london-tube-map.info/northern-line/ for the image

Shared Platform from Boldyn Networks 

The same network platform from BAI Communications (Boldyn Networks) is being shared by all of the primary operators.

Transport for London have a 20 year concession deal with BAI. This allows them to build the infrastructure needed for fibre-fed mobile connectivity, and then make it available via wholesale. 

Revolutionised Commuting in the Capital

Having Underground connectivity has long been a dream for commuters travelling around London using the tube. 

Chief Commercial Officer for VMO2, Gareth Turpin, says:

“For the first time, our customers can access the latest 5G mobile services deep under London. This is set to revolutionise commuting in the capital, and in the weeks and months ahead we’ll be rolling out ultrafast mobile services at more Tube stations, in tunnels and on platforms to bring high-speed connectivity to our customers as they travel on the Underground.

This is part of our commitment to upgrading the UK and ensuring customers can access our network wherever they are.”

When will all of the London Underground have 4G / 5G mobile broadband connectivity?

The network coverage is set to expand further throughout this year. 

Back in 2020, earlier work by TfL and other mobile operators meant that there are already 4G services on the Jubilee Line between Canning Town and Westminster stations. 

Last month we saw the additions on the Central and Northern Lines outlined above. 

The target is for ticket halls, platforms and Underground tunnels throughout the London Underground network to have 4G and 5G connectivity by the end of 2024. 

Keep your eyes peeled for further announcements! 

Could Mobile Broadband Be Right For You?

If you think your rural home or business could benefit from 4G / 5G mobile broadband then please get in touch with our Wi-Fi experts. We operate across the South of England out of Hampshire, covering West Sussex, Dorset and the Isle of Wight. We are specialists in designing and deploying mobile broadband networks for those who struggle with the more traditional forms of broadband internet. 

Which UK City has the Fastest 5G Speeds? 

Opensignal, an independent global organisation who offer reports and insights into the world’s communication networks, have this month published data revealing the UK’s fastest locations for 5G mobile broadband.

The fastest city for 5G download speeds is Birmingham, coming in at 162.7 Mbps. The fastest region was the West Midlands with 151.4 Mbps 5G download speeds. 

Where does the data come from? 

The numbers in this report come from data collected across hundreds of thousands of devices like Smartphones between November 1st 2022 and January 29th 2023. Primary mobile network operators were then compared across different categories. 

Is 5G faster than 4G?

The study also reported on the uplift in mobile broadband speeds when devices went from a 4G to 5G network in various locations. 

The majority of users found 5G download speeds to be between 3.7 to 5.5 times faster than 4G. The biggest uplift was found in Reading, Berkshire where users enjoyed 5.5 times faster speeds on 5G. London however saw the lowest uplift at a rate of 3.7 times faster than 4G. 

With thanks to OpenSignal for the image 

Is 5G or 4G better in urban or rural areas? 

The report also studied the differences between rural and urban areas when it comes to 5G. You might think that there would be a difference in uplift between these types of areas, but there was actually little difference. For rural areas with 5G, the uplift was 4.7 times faster. In urban areas, the uplift for 5G was 4.5 times faster. 

With this being said, mobile broadband users in urban areas do see significantly faster download speeds on both 4G and 5G networks than those in more rural areas. On 4G networks, download speeds are 23.7% faster (5.8 Mbps) in urban areas. On 5G networks, download speeds are 20.1 Mbps which is 17.6% faster than rural areas. 

5G networks are more limited in rural areas with less coverage. Unsurprisingly, this means that users on a 5G network in an urban area spend more time with an active 5G connection than rural users (9.6% and 6.6% respectively. 

With thanks to OpenSignal for the image 

Where in the UK do users connect to 5G the most?

It will probably come as no surprise that it’s Londoners who are actively connected to 5G networks for the longest.

Unfortunately for us (as we’re based in Hampshire) the South East and South West come very near the bottom of the table when it comes to 5G availability and time spent connected to the network. 

Will mobile network coverage improve in rural areas?

As we mentioned above, the data from this report does reflect on there being a gap between the mobile experience of users in rural and urban areas. 

Thankfully, there is ongoing commitment and work happening to try and improve mobile connectivity in rural areas. 

The UK government and mobile network operators are currently working together on the Shared Rural Network programme to increase the geographic coverage of 4G networks. 

Last year in their 2022 Connected Nations report, Ofcom found that through the SRN and other initiatives, users should be able to get good mobile coverage from at least one operator across 92.2% of the UK. This is a rise of 0.3% from the year before so things are moving in the right direction.

How To Choose and Install an External 4G or 5G Mobile Broadband Antenna

Like with so many of our utilities, we only really notice them when there’s a problem or they’re not working properly. Wi-Fi is just the same! Just like when the power goes out, if your Wi-Fi is on the blink then you know about it – And it is so frustrating! 

Whilst most people are lucky enough to connect to superfast broadband through a wired connection, there are also many rural homes that cannot access and connect to broadband or internet in the same straightforward way. 

Here at Geekabit, we work with lots of people – Businesses and homes – who struggle with the more traditional ways of connecting to the internet and have to turn to mobile broadband through 3G, 4G and 5G. 

And again, many people are lucky to have a business or home within range of a strong enough UK mobile broadband network.

‘Could I benefit from an external antenna?’

There are some more remote rural homes and businesses that find themselves struggling to connect to mobile broadband too. If your business or home is:

– Unable to connect to a decent fixed line ISP 

– Within range of a mobile broadband alternative but find it unstable on various operators

Then you might find it beneficial to get an external antenna installed. But which one do you need? 

Are External Mobile Broadband Antennas Easy to Install?

In terms of actually installing an external antenna, it’s actually pretty straightforward. All you need to do is choose a high, stable location on the outside wall of your house near the roof, and screw the antenna on. Remember to make sure it’s pointing in the right direction (ie. towards the nearest mast). 

You might also choose to mount your antenna on a pole to raise it higher than your house. If you’re going for this option, always make sure that it is stable and won’t cause any damage to the building you are mounting it to. It’s also worth liaising with your local authority before installing a large pole as in some areas, a tall pole could be in breach of planning rules. 

You will also need to drill the cable into the house – It’s very important to avoid any other electrical cables and water pipes whilst you are doing this as well as sealing up the holes afterwards. 

It’s also pretty important to keep the position of your router in mind. Will it be placed near the where the cable feeds into the building? Ideally, the cable between your antenna and router needs to be 5 metres or less otherwise you could find yourself struggling with interference and/ or signal loss. 

If that all feels a little daunting then you can hire a professional installer to do the job for you – Our expert Wi-Fi engineers here at Geekabit can do just this! We operate out of Hampshire, London and Cardiff.  

Whilst the physical aspects of installing an external antenna are quite straightforward, it’s not always easy to choose the right kit. The radio spectrum is variable by nature, which makes it very dependent on your environment. You might manage to install the antenna but not get the outcome you were expecting. 

What antenna you need depends on your specific location and needs. This blog will outline some of the options that could be right for you. Sometimes it’s a case of trial and error to find the right antenna for you – But that’s where it might be best to leave it in expert hands. 

‘Do I need an Omni-directional or Directional antenna?’

When it comes to installing an external antenna, the first thing you need to decide is whether you need an Omni-directional antenna or a Directional antenna. 

Choosing a Directional antenna

If you know where your nearest mast is and have a clear line of sight, then the Directional antenna might be the one for you. Whilst it’s weaker in other directions, the Directional antenna will have higher reception in one direction, hence why it works well for a clear line of sight with the mast or base station. This is often the better choice if you live or work in a rural area. 

What problems can you have with a Directional antenna? 

Using a Directional antenna can run into issues if the station is congested or goes out of service. E.g. during upgrades. 

Choosing an Omni-directional antenna

If you live or work in a more urban, built up area and aren’t sure where the nearest mast is then an Omni-directional antenna could be the better option for you. Whilst they have a lower overall gain, they are able to attract similar reception from all directions. Because the Omni is looking at a wider area, you may find that it provides better reliability. 

Generally, if you are finding and installing an external antenna yourself, then the Omni-directional antenna is probably the one to try first. 

What problems can you have with an Omni-directional antenna? 

It’s possible that because it’s looking at a wider area, the Omni could attract more interference. If you are able to utilise a well positional Directional antenna then you could get better performance that way. 

‘How much power does my external antenna need?’

So you’ve decided whether you need an Omni-directional or Directional antenna. What do you need to consider next? 

You’ll notice that antennas have gain figures in dB / dBi – This is how the power of the antenna is measured. 

In simple terms, the gain of an antenna is the relative measure of its ability to direct radio frequency energy in a certain direction or pattern. What do the gain (dB / dBi) figures on an antenna mean?

We could go into a lot of complicated detail here, but seeing as we’re writing this blog for someone looking to buy and install their own external antenna, we’ll keep it super simple. 

Basically, the higher the gain (dB / dBi) the better the antenna’s performance and range. Obviously, the higher the gain, the more expensive the antenna will cost. 

When you are at this stage of choosing your antenna, it is worth knowing what bands your mobile operator uses so that you can ensure how the different gain values given for an antenna correspond to the spectrum band you will be using. 

‘Choosing an external antenna – What are the challenges?’ 

As we said above, when you are installing a new external antenna, it’s really important to know:

  • Where and which direction the signal is coming from 
  • How strong the signal is
  • Which bands are being used in your local area by local operators

These are some of the biggest challenges you’ll face when installing your antenna. 

‘How can I find out the spectrum information I need to choose an antenna?’

If you go online to mobile operator’s websites you can find coverage checkers (Vodafone, Three UK, O2 and EE (BT)), but these can be rather vague and not always accurate. It’s worth comparing to what Ofcoms Mobile Coverage Checker says too.

Perhaps the best way to identify which bands are being used by your local operator is to download a relevant app or look up the mobile network details on your Smartphone or router. 

These apps will often just tell you the band number for your own operator rather than tell you the spectrum frequency. You’ll find that operators tend to own several bands, but usually use one band for national connectivity. 

What are the most common 4G Mobile Bands in the UK?

800MHz (Band 20)

900MHz (Band 8)

1800MHz (Band 3)

2100MHz (Band 1)

2300MHz (Band 40)

2600MHz (Band 7)

Remember that 5G uses a different band model and is currently only deployed on the 3.4GHz band. 

‘How do I know where my nearest mast is for installing my new antenna?’

So you’ve made sense of the bands on offer in your area from local operators. Next you need to work out where your nearest mast is and whether it’s the most appropriate for your location. Unfortunately it’s not always the option that looks most logical! 

When you’re choosing the most appropriate mast for your use, you need to consider the following:

  • Forms and features of local land surfaces (artificial and natural)
  • Local surroundings
  • Operator choice

There are apps and websites that can help with this such as Mastdata.com and Cellmapper.net. The Opensignal app could also be of use.

Did you know that operators also have sharing agreements with each other? Just to make things a little more complicated. For example, there is a sharing agreement between Vodafone and O2 as well as between EE and Three. What does this mean? Well it means that a mast could be serving more than one operator. 

How do I use signal strength information to position my external antenna?’ 

If you are able to gain an understanding of signal strength in a few different measurements, then you are more likely to position your antenna correctly. 

Signal strength is measured in quite a few different ways, so we’re going to just focus on a few that you are most likely to encounter. These are:

  • Received Signal Strength Indicator (RSSI)
  • Reference Signals Received Power (RSRP)
  • Reference Signal Received Quality (RSRQ)

These measurements are given by a negative dBm (decibel milliWatts) value. In this situation, negative values are actually good (most of the time). They are negative because they represent tiny yet positive numbers on a logarithmic scale, making them easier to consume. For example, -100dBm would be 0.0000000001 mW.

What is a good RSSI signal? Essentially, the closer to 0 dBm, the better the RSSI signal (although it does get more complicated past a certain point with diminishing returns of data speed). An example of excellent 4G RSSI signal would be -65 dBm. A poor RSSI signal would be -85 dBm. 

RSRP works on a similar scale to RSSI, where an excellent 4G RSRP signal would be -80 dBm.  

RSRQ operates on a very different scale, which means that an excellent signal is anything from around -10 dB (not dBm) and a poor signal would be -20 db.

Interestingly, most mobile modems are able to maintain a pretty fast data connection using a poor signal. Problems may arise however in more rural areas where speeds are slower and stability poorer due to the distance from a mast. 

What factors are most likely to affect signal strength? 

  • Distance to mast
  • Interference from competing signals
  • Router band switching
  • Physical obstacles in the environment like buildings, tall trees etc
  • The weather

Of course, these factors are not in your control, but you need to bear them in mind when positioning your antenna in order to get the best signal possible. 

Feeling confident about choosing and installing your external antenna?

If you are about to choose and install an external antenna to improve your 3G, 4G or 5G mobile broadband signal, then hopefully this blog has given you some of the basic information you need to make your decisions. 

If you’re still feeling a bit daunted, then why not get in touch with one of our Wi-Fi experts? We’ve been installing mobile broadband for clients in and around Hampshire, Cardiff and London for a while and can help identify which antenna solution would best suit your needs. Get in touch today! 

Connectivity Alliance – Telecoms Providers Join UK Landowners 

Last week on November 23rd, UK telecommunications providers, infrastructure providers and landowners joined together to form the NCA (National Connectivity Alliance). Why? Well. the main aim is to make collaboration easier on mutual areas of interest as well as aid the rollout of new networks. 

Let’s think about digital infrastructure for a moment – We’re talking about things like trenches for optical fibre cables and mobile masts. It’s easy to see why landowners and digital infrastructure developers might not be on the same wavelength (if you’ll pardon the pun). Previously, landowners would only allow operators to deploy infrastructure on their land in return for high rental fees. This would in turn have a knock on effect for consumers and telecommunications providers as operators would be unable to increase their coverage due to expensive rental fees. 

Back in 2017, the government amended the ECC (Electronic Communications Code) in order to make it more straightforward (and cheaper) for operators to access both public and private land. However, this didn’t have the balancing effect needed and lent instead more in favour of the providers – Some forcing rent of an extremely lower price. 

These lower rents didn’t take into account that landowners had multiple considerations to make like:

  • Facilitating access 
  • Ability to repurpose sites for other ventures (or inability to do so once infrastructure had been deployed)
  • Impact on insurance of any kit fitted to a roof
  • Safety risks for residents near base stations
  • Keeping an area used for deployment in good repair

You can see why this could easily end with disputes in court! Of course, the goal for everyone is to successfully roll out broadband and mobile networks, and the upcoming PSTI bill (Product Security and Telecommunications Infrastructure) plans to make the changes needed to do just this. 

It’s clear to see that something like the NCA is necessary to help increase collaboration between both landowners and digital infrastructure developers. 

The NCA Chair and Co-Founder is Partner at Blaser Mills Law. Carlos Pierce is thrilled to launch this cross-industry body that will benefit all parties – Including the general public. This new found collective of landowners and digital infrastructure developers will help improve digital connectivity for all. Industry experts bring about best practice, as well as helping landowners to have a deeper understanding of all things digital infrastructure. This combination of education and communication through this NCA collaboration brings an awareness of the needs of all parties in this sector, eventually benefitting the general public. 

The Minister for Digital Infrastructure, Julia Lopez MP, welcomes this new alliance in support of ‘world class connectivity’ for all people across the UK, regardless or whether they live in a city or rural area. Bringing together industry experts and landowners in this way will go a long way in helping negotiations so that all parties are happy. As a result, we can expect this new NCA to boost connectivity, productivity and even the economy. 

You can find out more about the NCA and what they’re about by visiting their website, or have a read of their latest press release here

Image from https://www.ncalliance.org.uk

How 4G / 5G Can Keep Railway Networks Connected

4G and 5G mobile broadband technology could be just the answer to the issues that arise from more traditional railway networks. 4G/5G can offer a more reliable connected railway system, allowing strong communication between different devices and employees. Thus, improving the user experience for both potentially frustrated colleagues trying to stay in control of routine maintenance and discouraged commuters put off from making their journey as a passenger. 

A 4G/5G connected railway network can connect trains with other devices and equipment as well as providing links to tracks, stations and operations providing a unified network with clear communications. 

What are the benefits of 4G/5G connected railways? 

As you can imagine, there are many benefits of using 4G/5G to connect railway networks. 

Maintenance

For technicians, engineering managers and other train maintenance staff, a connected system within the units themselves can help shed light on any future or potential problems with that particular unit and ensure timely maintenance before a breakdown occurs.

A railway network connected with 4G/5G may even find that their operational costs lessen through improved communication and streamlined processes. 

Revenue Opportunities 

Having reliable connectivity on trains opens up new revenue streams. Many passengers rely on a strong connection whilst travelling to continue with work, especially in this digital age of hybrid working. 

The more reliable the internet on your rail network, the better the user experience will be for passengers, which will in turn increase the likelihood of repeat travellers. 

Commuters may have a choice in how they get to where they’re going – Whether that’s rail, bus, driving, cycling or walking. If sitting on the train, connected to a reliable network, means that they can tie up any loose ends from their day before getting home then that could be just the reason they choose rail. 

Why do we need 4G/5G connected stations in our railway networks?

A fast, reliable 4G/5G network at our railway stations offer more efficient service and enhanced security. 

Efficient Service

Digital kiosks can help to reduce queues and offer passengers a quick way of buying their tickets when they are in a rush and don’t need any additional assistance. High speed 4G/5G networks ensure that these digital kiosks can get relevant updates in real-time, checking arrivals and departures status. 

Enhanced Security

4G/5G video surveillance means rail networks can monitor and track any suspicious behaviour anywhere on the train station or depot premises – Even without wires or Wi-Fi / ethernet connections. 

The 4G/5G network can transmit the data anywhere it is needed, providing timely monitoring and interventions where necessary. 

This type of data is invaluable for railway managers who can analyse what is collected from different locations and use these insights to improve operational efficiency, safety and the passenger experience. 

4G/5G Connected Trains

Passenger Experience

Not only do 4G/5G connected trains improve the passenger experience, they also open the door for more revenue opportunities. Selling data plans to your passengers and offering them access to reliable 5G Wi-Fi hotspots on trains means commuters can connect their mobile devices and laptops to a strong, reliable internet connection for the duration of their journey. 

Operations

The more reliably connected the train is, the more efficient the operations. 

Operations managers can effectively monitor the status of trains in operation by relying on accurate, real-time GPS tracking. Likewise, train operators can communicate with operations if any issues arise. Various colleagues on the railway system connected to the same reliable 4G/5G network improves communications.

Particular parts of the train can be fitted with sensors that are connected to the network. This means that the technology itself can communicate with the maintenance teams and notify when that part needs to be repaired or replaced. This helps to reduce the costs associated with delayed or cancelled trains due to unscheduled maintenance and improve service. 

Using smart cameras connected to the 4G/5G network means that train security can rely on high-speed wireless communication, particularly in locations tricky to monitor or wire to. They automatically record footage as well as identify potential suspicious activity and provide alerts to members of staff. 

Why Use 4G/5G for Connected Railway Networks?

4G/5G networks offer an ideal model for railway networks as they offer super-fast speed, low latency and reliability. 

It’s important to ensure that the 4G/5G connection available will be stable and of good quality. This is where 4G/5G testing comes in. 

Here at Geekabit we can provide 4G/5G mobile signal testing to check coverage and performance both in static locations and on the move. We can also determine which Mobile Network Operator would offer the best coverage for your user location(s). 

Geekabit can carry out a 5G survey along London roads, parts of the capital’s transport network and throughout leisure facilities in London and the surrounding areas. Other locations may be available on request, please feel free to contact us on info@geekabit.co.uk.

In today’s world, we don’t just stay in one place – Even while we’re working. We take our need for connection wherever we go – And it needs to be strong and reliable. Gone are the days where we are tethered to a desk – We need the 5G mobile coverage to be available on the go. Whether we are using a smartphone, tablet or other internet enabled device, we need to stay connected – And we need to know that the signal will be strong and reliable. 

Geekabit’s 5G survey can tell you how strong the cellular coverage is in certain areas of London, and which networks would work best for those locations. This information is invaluable.

Can I Check The Internet Speed Before Moving Home?

Once upon a time, we would walk into a prospective new home and tick the fundamentals off our list. Water pressure? Cracks in walls? Water marks or mould? Double Glazing? Overall presentation?

But now, topping the list of importance, is how good is the broadband? The lack of a decent internet connection is now just as much of a deal breaker as a huge crack in the wall. 1 in 7 people would forfeit a bath in favour of good broadband, and 15% would prefer reliable internet to a garden, 

Not only would people refuse to buy a home with unreliable internet, but people would even be willing to pay more for a house that does have fast internet! 

It’s unsurprising that home-buyers see internet connection as so vital. With the prevalence of home-working and video calls, plus online streaming and shopping from multiple devices it’s obvious why strong, fast internet is top of the list for prospective house buyers. 

How can you make sure you’re getting the best internet connection when buying a new house?

If you’re buying a new build, then you’re in luck. Most new property developers are now making sure that their properties are connected to ultrafast broadband. 

Some will even let you choose between the major fibre suppliers with connections ready to go. 

But what if you’re not buying a new build? 

Most Estate Agents now include an estimate of broadband speed alongside their listings. Geekabit actually have their own service which we offer to Estate Agents which provide just this – An accurate reading of the internet speeds available at a specific property. It’s called SpeedScore – You can read more about it here

As a homeowner – Or prospective home owner! – It’s important that you’re getting the most accurate information possible when it comes to the reliability of the Wi-Fi at your potential property. 

How to secure seamless internet when moving house

Once you’ve chosen your property and are ready to move in – Hopefully having previously checked how reliable the internet connection is – There are a couple of things you can do to make sure you are connected and ready as soon as possible.

  • Decide whether or not you are taking your current supplier with you
  • Give your current or new supplier as much notice as possible – They usually need at least 2 weeks if you want things ready on your moving date

How are house prices affected by bad internet?

If you are looking at buying a new property, chances are you’re also selling yours! But is your home one of the estimated 466,000 properties that experience bad broadband here in the UK?

If you’re selling a property, it should be obvious that your current internet speeds are going to be just as scrutinised as the potential properties that you’re considering buying.

If you have fast speeds and minimal interruption then your house price is likely to be unaffected by the internet. If, however, your broadband speeds are slow then you could be seeing a horrendous 24% decrease in your property value. With the average property value in the UK being £278,000, that’s a decrease of nearly £67K – Just because of bad broadband. 

Generally speaking, it’s more rural properties that are affected by unreliable broadband and slow internet speeds. House prices can tend to be lower in more rural areas too, but will fall even lower if the Wi-Fi offering isn’t up to scratch. 

What can you do about it? 

Fix the internet problems before you try to sell! If you’re thinking that you can get away with no potential buyers noticing then think again.

Whether you’re in a rural home or not, our Wi-Fi experts here at Geekabit can help make your Wi-Fi woes a thing of the past. There are plenty of options to boost your internet connectivity – From extra devices to mobile 4G/5G broadband. Give us a call to discuss – Our Wi-Fi engineers work out of Hampshire, London and Cardiff and are on hand to get you better connected. 

With the recent working-from-home revolution, there has never before been a need as big for fast, affordable, available broadband. 

Can Hot Weather Affect Your Phone Signal?

We’ve recently had the second heatwave of the year here in the UK, particularly the South of England with temperatures exceeding 30 degrees at our bases in Hampshire, London and Cardiff. 

Understatement of the year – It’s been very hot. And you might have noticed that during said heat wave, your 4G mobile phone signal has been affected 

Mobile network traffic is carried on radio waves, so the reception you get on your mobile phone can be affected by any kind of atmospheric conditions – including very hot weather. Just as you might find the weather affects your terrestrial radio signal! 

Weather in general, not just extreme heat, can directly (e.g. a thunderstorm with lightning causing electrical interference) and indirectly (change of season affecting mobile reception) effect 4G signal on your mobile phone or broadband service. 

How could a change of season affect network signal? Well, something as simple as the trees surrounding a property being bare in the Winter could mean that there is less interference to the reception coming in and going out. Come the Spring, the trees become covered with leaves, which could weaken and sometimes block the signal. 

But how does day-to-day weather affect 4G signal?

The most obvious weather affecting mobile phone coverage is stormy weather – Torrential rain and thunderstorms. Water and radio waves don’t really mix, so any water in the atmosphere is not good for your mobile signal. The frequencies used by mobile networks are hindered by any water – Not just rain and snow, but also fog, clouds and even high humidity. All of these types of weather can negatively impact your mobile phone signal. .

Why does water hinder 4G signal? Well, water conducts electricity, so any water vapour in the atmosphere can actually refract and reflect radio waves. Us Wi-Fi engineers call this the “propagation delay effect.”

What this means is that your mobile phone signal could be:

  • Weakened by interference
  • Disrupted or slowed down due to the signal taking longer to go between your device and the tower

Is the weather affecting my mobile phone reception?

We’re going to take a look at different types of weather now, and how each different weather conditional can interfere with the signal you get on your mobile phone or 4G device. 

Do extreme temperatures affect phone signal?

We’ll start with temperature as we’ve been enjoying such hot weather recently! Generally speaking, extremes of hot or cold weather on their own shouldn’t affect your mobile reception. 

You disagree? If you are experiencing issues with your 4G reception during extreme heat or very cold temperatures, it’s more likely to be due to what’s going on in the air and how the humidity is changing. 

Can rain affect my mobile phone reception? 

Rain is the weather that is most likely to negatively affect your 4G signal. In a rainstorm, the density o the water vapour in the air is highest – The heavier the rain, the more likely your 4G will be affected. 

Water vaoour in the air can also absorb the energy from the radio waves, reducing the reception your mobile phone can achieve. 

Can thunderstorms and lightning interfere with my 4G?

We’ve covered rain above, but actually thunderstorms even without heavy rain can cause real issues for mobile phone coverage. Because the lightning causes electrical interference, your 4G can struggle. 

Of course, lightning can also strike causing damage to cell towers and other network equipment which would obviously cause disruption to your local mobile network service. 

Does snow and hail make my mobile signal worse? 

You might think that snow or hail would be worse than rain, but generally it’s actually not as bad for phone reception. Snow flakes and hail stones are less dense than rain, so have less of an effect on mobile coverage. However, if we were to have very heavy snow, it can refract the radio waves and cause them to change direction which would cause problems with mobile signal and 4G. 

Does fog and cloud affect mobile phone signal? 

Whilst not as effective as rain at disrupting 4G signal, fog and cloud can still cause issues for mobile coverage because of the water vapour in the air. They still have the ability to cause localised problems with mobile reception by scattering radio waves. 

Can wind disrupt mobile phone signal? 

Just as with temperature, wind is unlikely to cause mobile coverage problems just as itself and shouldn’t affect your mobile signal if it’s unaccompanied by other weather. 

When it starts to cause problems for 4G signal is when the wind is joined by rain, snow or hail. Of course, with very high winds there is also the possibility of blowing down or damaging mobile network equipment and power lines, which could disrupt the service you get on your mobile. 

Is there anything I can do when the weather gives me poor mobile signal? 

There isn’t a great deal you can do if the weather is affecting your 4G signal and causing mobile coverage issues. You may find that a mobile phone signal booster could provide some reduction in disruption of mobile phone coverage due to poor weather conditions. 

A mobile phone signal booster works by taking the existing mobile signal and amplifying it, giving you better call quality, faster data and a more reliable signal for your phone or home. 

If you rely on your phone for work or use 4G broadband in your home, then this could be a good option for you to help ensure better coverage in bad weather. 

If the odd spot of bad weather isn’t going to cause you too much trouble by disrupting mobile coverage for a short while then you can probably grin and bear it – Ride out the storm! 

4G LTE Antenna – What Do I Need to Consider? 

If you are using a 4G LTE broadband connection, or plan to, then you’ll need to be considering your external antenna. 

 

4G broadband is a fantastic option if you struggle with a standard broadband connection, especially if you live or work in a more rural area. Over the past few years we’ve seen a big uptake in 4G and mobile broadband options – For homeowners as well as businesses. 

 

What you don’t want is to switch to mobile broadband, and then end up with download speeds that are lower that what you were expecting. Whilst this may simply be down to poor reception, there are some other factors that can come into play. 

 

So, with you as the user, what considerations do you need to make to ensure your 4G mobile broadband connection will be the strongest it can be?

 

Did you know that LTE is MiMo technology?

LTE, like 11n Wi-Fi, is a multi-stream radio, multiple in/multiple out (MiMo) service. So similarly to 11n Wi-Fi, LTE uses multiple radio data streams to and from the end client – Which means the more streams of data the client can take, the faster the broadband. 

Just like in 11n Wi-Fi, the number of streams is T (the number of transmit radio streams) multiplied by R (the number of receive streams the connection can support) so TxR. This means that if something supports 2×2 streams, it can support twice the upload and download speed of a device with 1×1. In 4G LTE, you get anything from 1×1 to 8×8 stream capability (including all the possible mixes in between them). 

The number of transmit and receive streams dictates how many antennas the client needs. So for a 1×1 service, you would only need a single antenna. For a 2×2 service you would need 2 antenna. You get the idea. 

A connection can only support the number of streams the service provider is capable of via their masts. It is also dependent on the client device and its radio capabilities. 

The majority of devices – Like phones and routers – have dual stream capabilities. 

 

Choices of Antenna

If you’ve already been looking for a 4G LTE antenna then you’ll likely already have realised that there can be a difference in price. One of the main differences between antennas will be, as we said above, the number of connections they have. 

 

As you’ll have probably guessed, the more connections they have, the picier the get. So a 2×2 (or 2×1 or 2×2) device will cost more than a 1×1 device. You’ll typically see a choice between single (1×1) and dual connection (2×2) antennas. 

 

In most scenarios, you will be wanting a dual connection (2×2) antenna so that it supports the functionality of your router and other devices with dual stream, MiMo functionality.

 

But how do you know if the antenna will be any good? 

 

That comes down to polarisation. There needs to be a physical difference between the radio streams so that the receiver can differentiate between them. This can be as simple as mounting the antennas, leaving a physical gap between them of a few inches. 

 

It’s also a good idea to have each antenna at a different angle – Ideally at 90 degrees to each other. This is because although the radio waves might leave the mast in a lovely vertically polarised fashion, after a few reflections they will likely not be like that any more. Setting up the antenna so that they can also receive radio waves that are no longer vertically polarised will mean you will better receive the signal – A cross shape would achieve this. 

 

Do I need a Directional or Omni-Directional Antenna Set Up? 

Whilst it might be tempting to just opt for the highest gain directional antenna, this isn’t actually always the best choice – For 4G LTE or Wi-Fi. 

 

If you imagine a radio wave travelling from the mast to your receiver, with nothing in the way, it would have a straightforward route and an uninterrupted signal. In real life, this is unfortunately not the case. The signal cannot go through anything solid, so whenever something gets in its way, it reflects and scatters from those objects until it reaches the antenna. This means that the radio signal could come to your receiver from all different directions. 

 

Directional antenna, although high gain, have limited coverage in terms of their angle. So with radio waves potentially coming in in all directions, the directional antenna is going to cause you problems. 

 

The best situation for a directional antenna is when there is a clear line of sight between the mast and the mount of the antenna – Which is not a very common thing. 

 

The omni-directional antenna might well be lower gain, but it should pick up the signal regardless of what directional the radio waves are coming from. 

 

The best way to improve the signal you receive is to mount the antenna outside and as high up as possible.

 

Directional Antenna Pros

  • Can occasionally give a better, stronger and cleaner signal when carefully aligned with line of sight 
  • With a clear line of sight (and no ambiguity) then a directional antenna would be preferred choice

Directional Antenna Cons

  • Careful alignment with line of sight can be very tricky
  • Without line of sight, you have to rely on how it reflects and scatters
  • Changes in environment can result in how the signal is reflected (e.g. something as simple as a dry wall reflects better than a wet wall)
  • It is harder for the system to switch to a different mast (this could be dictated by the provider)

 

Omni-Directional Antenna Pros

  • Easy and quick installation (no tricky, careful alignment needed)
  • It is easy for the system to change transmitter masts
  • Antenna can be mounted outdoors, making a significant improvement in signal despite the lower fain

 

Omni-Directional Antenna Cons

  • In comparison to the directional antenna, the omni has lower gain
  • Can be more susceptible to radio frequency interference coming from different directions

 

Frequency Bands

There are a number of frequency bands that are used for 4G LTE in the UK. There’s the 800MHz band, the 1400MHz / 1.4GHz band, the 1800MHz / 1.8GHz band, the 2100MHz / 2.6GHz band, the 2300MHz / 2.3GHz band, and the 2600MHz / 2.6GHz band.

 

Although not set in stone, you generally find that the lower frequency bands are used more in rural areas due to them having longer transmission range than the higher frequencies and having to cover a larger geographical area. The higher band would likely be used more in built up towns and cities. 

 

What does this mean for antenna? Well, it means that you, as the end user, need to ensure that your antenna will support the service and frequency band of your provider. If you are sensible and savvy, you will choose an antenna that can cover the different frequency bands in case your service/provider changes. 

 

Stream Bandwidth

The available spectrum is divided and allocated between providers into sub-bands. The connection you get as the end client will depend (and vary) on how many clients the local signal mast can support as well as the bandwidth. 

 

If you live or work in a high user area, the density will mean that you may struggle with throughput speed or even getting a connection in the first place! 

 

What high user density situations could impact your 4G connection? Well, if you live near a football stadium or a busy motorway, you may find that on match day or during a bad traffic jam, your internet connection comes to a standstill as well! 

 

Which Antenna Do I Need for my 4G LTE Connection? 

 

How do you choose? Let’s take a look again at the main considerations you need to think about to ensure the best possible connection. 

 

Single or Dual Antenna

 

Does your router only have a single antenna connector? If so, then you should probably choose an external antenna with a single connector. 

 

If your router has a dual stream connection then you need to choose an antenna with 2 connectors. You could also choose two single connection antennas. 

 

Remember – If the local signal mast sends out a 1×1 service, then that’s all you’re going to get, even if you have a router and antenna set up that supports 2×2. Having the 2×2 compatible service won’t see you any difference if it’s a 1×1 signal service.  

 

Directional or Omni-Directional Antenna? 

We’re not trying to tell you what to do… But our Wi-Fi expert’s advice would be, in most scenarios, to go for an omni-directional antenna. As we mentioned above, it’s tempted to just go straight for the antenna with the biggest gain, usually the directional, when you could face very tricky alignment issues. Very few properties, business or home, have a clear line of sight between their local mast and their antenna. Unless you have this clear line of sight, then an omni is the best option.  

Correct frequency

Remember to ensure that your choice of antenna will work with the frequency range coming from your service provider and local mast. It’s only going to work if your frequency band matches what your antenna supports! 

 

To avoid potential issues when services or providers change, you should aim to choose an antenna that covers all the 4G LTE bands here in the UK. That means that your antenna should always work, even if you change provider or your local service changes. You might have to pay a little more, but it could save you problems in the future. 

 

Location

You should always mount the antenna wherever it has the best line of sight to the local mast. Sometimes you might not be able to see the signal mast, especially if you live or work in a very built up area. Even if you cannot see the mast, bear in mind the direction it’s in – Does your antenna need to be at the front or the back of your building? Even without a clear line of sight, this will vastly improve the signal you get. 

 

Generally speaking, the higher up you can mount the antenna the better! 

 

Also make sure that you’re not locating it close to a thick wall or anything metal. Even an omni-directional antenna would struggle to get a good signal in these situations! You want to make it as easy as possible for the signal to reach the receiver on your antenna. 

 

I’ve followed the advice but still don’t have good download speeds? 

You could have the perfect signal – And still not get good download speeds. This could be down to a few different reasons:

  • The service capabilities of your provider (the frequency they are allocated)
  • The service provided from the local mast
  • The capabilities of your router
  • If you live or work in a high user density area with lots of people trying to connect at the same time

 

Whether or not this matters depends on what you are using your connection for. If you are a business and are relying on your 4G LTE connection for your business operations, then this is going to be an issue. 

 

Trust the Experts

 

Here at Geekabit, our Wi-Fi experts can tell you just how reliable a 4G (or 5G) mobile broadband connection would be with one of our surveys. 

 

If you’re struggling with wired broadband, and not getting the reliable internet connection you need in your rural business or home, then 4G / 5G could be a fantastic option for you.

 

It can feel like a big jump to give up on your wired broadband connection and opt for 4G – Which is where our Cell Coverage 4G survey comes in.

 

We can tell you exactly whether 4G broadband would work for you, and which network would be most reliable.