Tag: bandwidth

How T-Mobile is “Boosting” 5G Mid-Band Speeds

T-Mobile announced another 5G milestone on Tuesday. They are now combining three channels of mid-band spectrum on their 5G network. In tests the company achieved network speeds of 3Gbps. While they weren’t specific, T-Mobile said this technology will become available to customers “later this year.”

When we look at what’s possible with 3Gbps (or 3,000Mbps), it’s comparable to the speeds of mmWave. This is the high-band 5G, which has a limited range, but allows you to download a movie in seconds. Mid-band 5G speeds normally max out around 200Mbps. However, T-Mobile is making some adjustments within the network to boost those speeds significantly.

Technically speaking, T-Mobile is using carrier aggregation to combine different sections of spectrum. Carrier aggregation, as you may be used to it, is how LTE Advanced and 5G modems combine frequency bands to achieve more bandwidth speed. So, it has nothing to do with combining multiple “carriers” as T-Mobile is using only their owned spectrum. 

This also is not something new for the company, or the 5G world. T-Mobile is already using this technology to combine two 2.5GHz 5G channels on some parts of its network. This most recent test increased speeds by adding a third channel.

Verizon had also used the technology to demonstrate speeds of 4.2Gbps on its 5G network back in 2020. The difference, from T-Mobile’s point of view, is that they are the first to use three-carrier aggregation on a live, standalone 5G network with a commercially available device: the Samsung Galaxy S22. That being said, those with a Galaxy S22 on T-Mobile’s network will be “among the first” to have access to this faster type of 5G.

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Who Has the Fastest, and Most 5G Coverage in America?

As 5G is constantly evolving, OpenSignal has released another report regarding the 5G experience across the United States. Per their report, “In this insight we quantify how the 5G experience has changed across the U.S. in the six months since our previous analysis. This benchmark will act as a reference point to evaluate the future impact of AT&T and Verizon’s C-band deployments on the national 5G mobile experience as it records the state of the 5G experience on the eve of the arrival of C-band.”

The evaluations were done during a 90-day period, which started on November 1, 2021 and ended on January 29, 2022. This was done across all 50 U.S. states and 300 cities. Among them, Illinois came out on top for download speeds. They had an overall average of 141.4 Mbps, which was just ahead of New York at 138.6 Mbps. In fact, 23 of the states saw averages over 100 Mbps. There were however a few that were under 60 Mbps. Take a look at the results below. 

With regards to improvement comparison since the last report, 44 states saw an increase of around 27 Mbps for the average download speed. There were 6 states that saw “no statistical change.”

OpenSignal also looked at the “5G Reach” and how it has improved in each state. The average improvement across the 47 U.S. states that saw their 5G Reach score increase was 17.1% (0.6 points). In this evaluation, all states saw improvement except for Hawaii, North Dakota, and Vermont. 

Next, they looked at “5G Availability.” This was increased in only 21 states.  “5G Availability represents the proportion of time that 5G users saw an active 5G connection on their smartphone,” states the report. 

OpenSignal also reports about the changes that have been made over the course of the past six months that have changed the 5G mobile experience. They see promising signs that U.S. carriers are either planning to or are currently addressing problems surrounding coverage and performance in small rural states. 

“For example, our 5G users in West Virginia and New Hampshire saw improvements across all three metrics analyzed — 5G Download Speed, 5G Availability and 5G Reach — meaning that they could access 5G networks in more locations, spend more time with an active 5G connection and also enjoy faster 5G download speeds than before,” says the report. “However, our 5G users in Vermont and North Dakota were the only ones out of the 50 states whose 5G mobile experience hasn’t changed statistically across any of the three measures analyzed, suggesting that 5G improvements are happening at a staggered pace across different locations.”

Lastly, 5G was reviewed across 300 U.S. cities. Specifically, they looked at Availability and Download Speeds. Check out the results below. 

Just like 6 months ago, six of the top 10 cities for 5G Availability belonged to Texas. Four of them – McAllen, Brownsville, San Antonio and Waco – also appeared in the previous top 10, while El Paso and Austin made it into the cut this time, replacing Houston and Corpus Christi. The remaining four cities in the top 10 were Chicago, Miami and Los Angeles — all of which were also shortlisted last time — as well as Trenton, New Jersey.

The average 5G download speed passed the 100 Mbps mark in 105 cities, up from 12 last time. Among these cities we found Washington (140.8 Mbps), San Antonio (136.2 Mbps), Los Angeles (134.4 Mbps), Seattle (131.6 Mbps), Phoenix (121.2 Mbps), Dallas (118.9 Mbps), San Diego (118.3 Mbps) and Indianapolis (113.8 Mbps).

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Verizon 5G Map with Ultra Wide

Verizon recently updated its Verizon 5G nationwide coverage map with its new “Ultra Wideband” C-Band coverage. We now know exactly where Verizon says more than 90 million Americans will be able to get this new C-Band service. 

According to Verizon Wireless, it offers two types of 5G service: “5G Ultra Wideband and 5G Nationwide.

  • 5G Ultra Wideband is Verizon’s fastest 5G. According to Verizon, 5G Ultra Wideband experiences speeds up to twn times faster and respond quicker than 4G, thanks to its access to both 5G high bands and low bands. 5G Ultra Wideband speeds range from 300 Mbps to 1 Gbps.
  • 5G Nationwide runs alongside 4G LTE; it delivers a similar experience to Verizon’s 4G LTE network, which provides a convenient, reliable, and widely available 5G network.

Only Verizon’s top Unlimited plans provide access to 5G Ultra Wideband and 5G Nationwide. All other plans provide access to 5G Nationwide only.

Verizon’s 5G Ultra Wideband Coverage Map Accuracy

According to some users, Verizon’s updated 5G Ultra Wideband coverage map isn’t very accurate now. These users found that C-Band was available in some of the indicated areas on the coverage map but was non-existent in others. The current Verizon 5G Ultra Wideband coverage map seems to be more of a projection of where C-Band is and where it will eventually be in the near future. Then again, coverage maps generally can’t meet the level we’d like them to be at, which is to tell us how good the coverage is here or there. 

Aside from allowing phones access to double or triple LTE speeds, Verizon plans to utilize the new airwaves to expand its $50/month wireless home internet offering. Coverage for wireless home internet won’t be available everywhere and will depend on available network capacity.

Verizon Rural C-Band Coverage

To 5Gstore’s surprise, there appears to be C-Band coverage in more rural areas than we’ve seen before, including in some areas that are located hundreds of miles away from large cities. These include areas in southwest Indiana and small towns outside of New York City, as well as some remote areas in Arkansas and Alabama. 

5G Exclusion Zones

“Exclusion zones” (or “buffer zones”), to which Verizon agreed with the Federal Aviation Administration (FAA), are apparent in Verizon’s 5G coverage map around major airports. Major airports and their grounds, such as New York’s LaGuardia, Chicago’s Midway and Dallas’ Love Field, appear to have 5G coverage. However, there are some exclusions in varying directions.

Check back often to 5Gstore! We will provide you with the most recent Verizon 5G coverage maps available, as well as the information you need to stay connected.

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T-Mobile Comes Out on Top of OpenSignal’s Latest Report

OpenSignal is known for its mobile analytics. Each year they release a few reports about the major cellular carriers’ networks. They take results gathered from millions of devices, which result in billions of measurements. The latest data gathered, which was collected between September and December of last year, shows T-Mobile is on top once again. 

Analysis was done in 43 states, as well as the capital of Washington, D.C., for each of the carriers strictly on their 5G network experience. The report covered: Availability, Reach, Games Experience, Voice App Experience, Download Speed and Upload Speed. 

T-Mobile was not the only winner though. Verizon also picked up the categories of Games Experience and Voice App Experience. Sadly, for AT&T, they didn’t win any categories, but still presented good results in comparison to its competitors. It’s no wonder given that T-Mobile has not had to deal with the issues surrounding C-Band that AT&T and Verizon have. This service was originally delayed, then limited to certain locations – all because of possible interference with aircraft tools that also work around the C-Band spectrum. 

While Verizon has the best user experience, T-Mobile dominates the speed categories. In fact, they’ve been at the top of the Download Speed category for six times in a row and Upload Speeds for the fifth time in a row. 

T-Mobile also won the Availability and Reach categories. It’s clear their lead on getting mid-band service out to 200 million users was a success. This is what they have dubbed their “Ultra Capacity 5G” service. It relies on the 2.5 Ghz band, so it is unaffected by the FAA concerns that have affected the C-Band. 

Now let’s take a closer look at how all the carriers fared in each category, at the National Analysis level. 

Note that each of the OpenSignal charts listed below have brackets at the end of their respective graphs. These brackets represent confidence intervals. Per OpenSignal, “For every metric we calculate statistical confidence intervals indicated on our graphs. When confidence intervals overlap, our measured results are too close to declare a winner. In those cases, we show a statistical draw. For this reason, some metrics have multiple operator winners. In our bar graphs we represent confidence intervals as boundaries on either sides of graph bars. In our supporting-metric charts we show confidence intervals as +/- numerical values.”

  1. 5G Availability

“Opensignal’s 5G Availability compares the amount of time 5G users spent with an active 5G connection — the higher the percentage, the more time that users on a network were actually connected to 5G.”

The brackets |-| represent confidence intervals.
  1. 5G Reach

“5G Reach represents the proportion of locations where 5G users have connected to 5G out of all the locations those users have visited, on a scale of 0-10. This measure complements our existing 5G Availability metric, which represents the proportion of time 5G users spent connected to 5G.”

The brackets |-| represent confidence intervals.
  1. 5G Games Experience

“Opensignal’s 5G Games Experience measures how mobile users experience real-time multiplayer mobile gaming on an operator’s 5G network. Measured on a scale of 0-100, it analyzes how the multiplayer mobile gaming experience is affected by mobile network conditions including latency, packet loss and jitter.”

The brackets |-| represent confidence intervals.
  1. 5G Voice App Experience

“Opensignal’s 5G Voice App Experience measures the quality of experience for over-the-top (OTT) voice services — mobile voice apps such as WhatsApp, Skype, Facebook Messenger etc. — when users are connected to a 5G network.”

The brackets |-| represent confidence intervals.
  1. 5G Download Speed

“T-Mobile’s 5G Download Speed continues on its upward trend as our users on the carrier now clock average speeds of 150 Mbps, up from 118.7 Mbps in the previous report. A year ago, using T-Mobile our users saw a 5G Download Speed score of 58.1 Mbps, but it has consistently increased since then due to T-Mobile’s ongoing deployment of 2.5 GHz spectrum. The carrier has been increasing both its population coverage, as well as the amount of spectrum deployed on that band.”

The brackets |-| represent confidence intervals.
  1. 5G Upload Speed

“T-Mobile keeps hold of the 5G Upload Speed award with a score of 17.9 Mbps, which is 1.8 Mbps faster than what our users observed in our October report. Verizon places second in 5G Upload Speed with a score of 14.1 Mbps, which represents a 0.3 Mbps decrease from our previous report, while AT&T’s score increased from 9.7 Mbps to 9.9 Mbps.”

The brackets |-| represent confidence intervals.

Analysis was also done at the regional level, which you’ll see outlined below.

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Testing Verizon C-Band in New York City

Verizon’s new 5G network is live and PCMag just tested it out in New York City. In summary, C-Band made their connections about 50% faster, once they were able to find the signal. They also noted less congestion on the network, which is likely due to it still being so new. 

Starting this past Wednesday, Verizon launched its new form of 5G in 46 cities. AT&T did also, but only in eight cities. 

While PCMag reports the Verizon service being noticeably improved, it didn’t measure up to T-Mobile’s citywide “5G Ultra Capacity”— at least, not yet. T-Mobile currently has the most coverage in New York City and the best performance also in comparison to its competitors. 

Looking at reports from other cities, it seems that may not be the same as in New York City. Per PCMag’s report, “Redditors are busy posting spectacular C-Band speeds, including 859Mbps down in Los Angeles, 586Mbps outside Pittsburgh, and 413Mbps in Indianapolis.”

In order to test the C-Band, the PCMag team used the new Ookla WIND software. This is a carrier-grade package that runs on altered Samsung Galaxy S21+ phones. WIND’s Pro version, which the company supplied for testing, shows all the details of frequency band use you could ever need. It also lets testers build complex setups with voice, data, text, and video tests.

Verizon’s C-Band was a little hard to find during the New York tests. They ended up being able to use C-Band only on sites in two cities – Forest Hills and Kew Gardens. In other locations like East Harlem, their phone had refused to connect to C-Band, despite Ookla having identified the location as having C-Band available. It’s possible that some connections are being blocked by the carrier, or perhaps something to do with technical interference.

PCMag also addressed the “exclusion zones” that carriers agreed to with the FAA. Some of the exclusion zones are around JFK and LaGuardia airports. These are some of the busiest airports among a part of the city that is populated by about 2.3 million people. This is the same case for areas like Chicago, Dallas, and San Diego. Folks here unfortunately don’t have the benefits of the new 5G because of interference risks with aircraft altimeters

Per Verizon, the exclusion zones are a rectangle 2 miles long extending from the end of each airport runway. In one case during the tests, they were unable to find C-Band in an arc spanning from 4 miles southeast to 3 miles southwest of the end of the LaGuardia runway. That area covers many of Queens’ densest neighborhoods. Unexpectedly, though, they found more millimeter-wave in the exclusion zone than they expected to. 

“While the super-fast, short-range technology didn’t blanket the area, it kept popping up here and there throughout Long Island City, Astoria, Sunnyside, and Elmhurst, giving a huge boost when I could find it,” the article reads. 

They continued, “I can’t tell if Verizon’s avoidance of neighborhoods closer to LaGuardia is about the exclusion zone, or just the vagaries of early network buildouts. But we can confirm that while there’s no C-Band coverage within 2 miles of the airport, there is definitely coverage between 3-4 miles away.”

So just how fast is 5G? 

PCMag’s tests shows the in most cases, the C-Band service was double the speeds of LTE. This is because 5G was made more efficient and spread across multiple airwaves, making it able to provide more speed with less congestion on the networks. 

The article explained this more technically. “C-Band roughly doubles the airwaves Verizon had available for use in our tests. In most of our tests, Verizon used 40-50MHz of 4G LTE spectrum. When its “nationwide” 5G was active, it added 10MHz of low-band 5G to that. C-Band trades out that 10Hz of low-band 5G for 60MHz of mid-band, resulting in 100-110MHz being used.”

In comparison to tests run with T-Mobile, Verizon was just a little less. T-Mobile generally used 40MHz of 4G LTE along with 80MHz of mid-band 5G, for a total of 120MHz.

Tests were split between the carriers’ 4G and 5G components. PCMag found that in T-Mobile’s tests, 75% of the speed came from 5G, while in Verizon’s tests, 45-55% came from 5G. They also noticed that for some unknown reason, “each megahertz of Verizon’s was slower than a megahertz of T-Mobile’s—something the bigger carrier is surely working on optimizing.”

They also discovered something rather odd. “A bunch of our C-Band results in Kew Gardens all congregated around 140Mbps down in a way that makes me think it was a configuration issue or cap, not the capability of the network.”

What about the reach of the C-Band service?

The tests performed by the PCMag team have already shown T-Mobile is faster than Verizon on their mid-band spectrums – T-Mobile at its 2.5GHz frequency and Verizon at the higher C-Band spectrum.   The real question now is, which carrier delivers more range? PCMag says, “But the fact is, urban networks in places like New York, Chicago, and Dallas are dense enough that the difference may not matter.”

The case in Queens, for example, Verizon’s network is so dense that sites don’t have to broadcast very high to be received. It’s the same for T-Mobile here, whose extremely dense network in Queens has sites that are often a quarter-mile from each other or less.

From their findings, PCMag believes the jury is still out in the battle of mid-band distance. Though it is clear that C-Band has enough reach so that carriers won’t need to put a site every few blocks. 

Do I need C-Band now?While C-Band is available now, it can only get better as Verizon continues to roll out service. “In many other cities, it appears to already be better; my experience in Queens looks like the low end of the C-Band experience,” said the author of the article. They added, “The C-Band boost will come primarily to places within half a mile to a mile of a Verizon cell site, so look up your location on cellmapper.net if you’re curious. It’ll also require a recent phone.”

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T-Mobile Wins Big in New Ookla Performance Study

T-Mobile is boasting about its 5G service again, with an announcement that it came out on top in a new Ookla study. This measured things like 5G speed, performance and availability. In the announcement, they added that it would be moving forward with turning on its 5G carrier aggregation (CA), both with 2.5 GHz and 2.5 Ghz combined with 600 MHz. 

Ookla’s nationwide network performance analysis had T-Mobile at the top of all 6 categories. These include: fastest provider, latency, consistency, 5G performance, 5G availability and 5G consistency. Considering the 5G coverage T-Mobile has had in place compared to its competitors, it’s not much surprise they ruled here. This is in part thanks to their ability to rollout coverage on mid-band spectrum that isn’t causing interference risks like the C-Band is for AT&T and Verizon. 

According to an article from FierceWireless, the mid-band spectrum they are using (2.5 GHz), which was acquired from Sprint, provides about 40% faster speeds. Currently, download speeds are running at a top average speed of 187 Mbps nationwide. According to T-Mobile, this is faster than most home WiFi connections, two times faster than Verizon 5G and over 2.5 times faster than AT&T 5G. More importantly, customers were more likely to connect to 5G than Verizon or AT&T customers. Again, this could simply be due to the delays both carriers have experienced with their 5G rollouts. 

With regards to the 5G carrier aggregation, this combines two channels of 2.5 GHz mid-band spectrum for greater speed and capacity. It’s much like bonding in this case, but happens within the one carrier’s network. This should allow for less congestion as there will be more service to go around. 

5G standards set the maximum bandwidth for a sub-6 GHz 5G channel at 100 MHz of spectrum. That is a lot of capacity, but with 5G CA, the operator is able to provide customers with more than 100 MHz of 2.5 GHz Ultra Capacity 5G spectrum, starting with 120 MHz in many places. So, customers in those areas will see a significant boost in speed and performance.

According to T-Mobile, tests have been completed that show 2.5 GHz 5G CA can improve speeds by about 20%. Also, devices reach speeds greater than 100 Mbps twice as often as those without 5G carrier aggregation. In addition, T-Mobile noted that it’s expanded NR CA with 2.5 GHz and 600 MHz to cities across the country.

“These capabilities are live across much of T-Mobile’s network today for customers with the Samsung Galaxy S21 and another popular flagship device, becoming more broadly available – with additional devices – in the coming months,” said a T-Mobile representative.

T-Mobile also highlighted results of record-breaking 5G upload speeds with 5G Dual Connectivity. The test was done by Ericsson and Qualcomm. They found T-Mobile exceeded 1 Gbps on upload – 1005 Mbps, to be precise – by combining 2.5 GHz spectrum with millimeter wave.

“Today’s wins confirm what over a dozen other studies have found in the last year: T-Mobile 5G is #1 in performance and/or coverage,” said T-Mobile President of Technology Neville Ray in a statement. “Our competitors bet on the wrong spectrum for 5G. Now, they’re years behind and scrambling to catch up. We’ll keep blazing ahead, reaching more and more people with Ultra Capacity 5G and spearheading new technologies. This is what you get when you combine the best damn 5G network with the hardest working team in the industry.”

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5G Stats from RootMetrics Favors T-Mobile

As T-Mobile’s lead in the 5G race soars – both in speeds and reliability – AT&T and Verizon’s positions are too close to call at this time. This is according to newly released data from RootMetrics (refer to the November Scorecard). Tests were completed in about 60 cities, out of a total 125 they will eventually incorporate for later tests. T-Mobile US had the most 5G availability in 42 cities, AT&T led in 25 markets and Verizon in 4.

Cities with the most 5G coverage were also reported. Specifically, RootMetrics reported cities where each of the carriers had achieved the most extensive amount of 5G coverage. This includes:

  • El Paso, Texas (98% 5G coverage by T-Mo) 
  • Indio, California (96.8% 5G coverage by AT&T) 
  • Rockford, Illinois (91.7% 5G coverage by Verizon)

The cities where each carrier clocked the fastest speeds thus far during RootMetrics testing were: 

  • Kansas City, Missouri, where T-Mobile US achieved a blazing 273.3 Mbps 
  • Ann Arbor, Michigan, where Verizon’s network registered median 5G download speeds of 98.3 Mbps 
  • Milwaukee, Wisconsin, where AT&T saw median 5G download speeds of 71 Mbps

In this round of testing, Patrick Linder, CMO of RootMetrics, said in a statement, “We…witnessed firsthand just how dynamic the 5G race can be, with a new leader for speed and a shift in the reliability standings since our testing in the first half of 2021. With another 65 markets to test and all carriers aggressively continuing 5G deployment and optimization, things could certainly change again as we continue our 2H 2021 testing.”

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5G Increases Overall Data Usage

As cellular technologies grow, so does our need for content and therefore, our consumption of data. According to a recent report from Ericsson, average mobile data usage is over 10GB per month. Ericsson attributes this increase by only two factors. 

Mobile data is more readily available and since most users are on cell phones usage is higher than on fixed broadband services. 

The amount of mobile broadband routers have also risen. Think about all the people who had to start working from home. Those in more rural areas found a sudden need for a stable connection with high bandwidth, but no access to wired services. LTE Advanced and 5G technology have made this more possible. Sure, there are battery powered mobile hotspots, but they generally don’t have the power, nor the features to support everything a work-from-home employee requires.  

It’s easy to rack up data on your cellular connection using a mobile broadband router compared to your cell phone. No longer is it just you browsing the web or making video calls, but now everyone in your home or office is using the same connection. The report – Ericsson’s Mobility Report – shows mobile data usage hit 11GB per month in both the US and Western Europe.

Also something to note, according to a study by Pew Research, some 15% of US adults are now mobile-only internet users – meaning they don’t have a home broadband connection, but instead rely solely on their smartphone. Smartphone ownership has increased to 85%, up from 81% in 2019.

If this trend continues, the monthly global average usage per smartphone is forecast could reach 35GB by the end of 2026. Smartphones continue to be at the epicenter of this development as they generate most of the mobile data traffic – about 95 percent – today, a share that is projected to increase throughout the forecast period.

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