T-Mobile Just Achieved the World’s Fastest 5G Upload Speeds
Here’s what that does (and doesn’t do) for customers
Nov 8, 2024 | Share 
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Monday, T-Mobile announced it produced the world’s fastest upload speeds over a stand-alone 5G network. During a test at SoFi Stadium in Inglewood, California, T-Mobile reached an uplink throughput of 2.2Gbps, absolutely shattering the 565Mbps record-setting speed declared by Ericsson in July 2023. T-Mobile’s new uplink capability could have a huge impact on 5G performance, but likely only in certain locations, such as large venues.
T-Mobile’s SoFi Stadium results were achieved using New Radio Dual Connectivity, aka 5G DC, provided by Ericsson. The emerging tech aggregates the usual 2.5 Ghz frequency spectrum used for 5G with the extremely high-frequency mmWave spectrum. The T-Mobile test isn’t the first demonstration of combining these frequency spectrums, but is unique in that it managed to use the majority (60%) of the mmWave resources, whereas previous tests typically only utilized up to 20%. With some help from a Qualcomm Technologies Snapdragon X80 5G Modem-RF System, T-Mobile reached uplink speeds that could be truly game-changing for customer connectivity at big events.
Upload speed is particularly important at big venues and stadiums because those are some of the few places where internet customers switch from download-heavy activity to upload-heavy activity. Few attendees are watching YouTube and Netflix at a concert or sports game, but just about everyone is eager to share these experiences online, and nothing does that better than video. Fast upload speeds are essential for sharing video to social media and for live streaming. T-Mobile’s upload capabilities could dramatically improve the fluidity of sharing content from huge events.
A connectivity glass cannon
While T-Mobile’s uplink gains stand to have a major impact in specific spaces, they probably don’t mean much for 5G internet usage anywhere else. This is because the mmWaves used for the massive uptick in speed are painfully fragile. While mmWaves come with excellent bandwidth, they are far from ideal for anything but close proximity and high-powered communications with an unobstructed line-of-sight.
The typical frequency spectrum used for 5G service is robust, with the ability to travel long distances, penetrate buildings, and bounce off walls while still carrying a healthy signal. In contrast, mmWave communications can be stopped by nearly anything between your device and the transmission source: a windshield, the leaves of a tree, or even thick clothing can stop a mmWave broadcast dead in its tracks.
On top of that, mmWaves can’t travel very far because the oxygen and water in the atmosphere quickly attenuate the signal. The final nail in the coffin is the dire need for a direct line-of-site, as the waves don’t bounce off surfaces well at all; instead of reflecting into a more concentrated path like other comms waves, mmWaves typically scatter upon hitting most surfaces.
These obstacles make T-Mobile and Ericsson’s achievement all the more impressive, with the development of powerful equipment and using natural loopholes in the frequency spectrum to deliver very useful applications for mmWave technology. It’s almost as if nature tailor-made mmWaves for use in arenas and stadiums, but it will be an enormous challenge to utilize this tech anywhere that doesn’t have a beastly mmWave antenna with internet users situated around a central location (like a football field).
It was once considered mmWave tech could transform mobile communications. Internet service providers and carriers, such as Verizon, secured as many rights as possible for the extremely high-frequency band. Now that mmWave’s limitations are more clear, ISPs and tech companies have responded accordingly. T-Mobile itself relinquished much of its mmWave spectrum, declaring the technology “not feasible” on the scales required for wide use. The trend continues in the product market, with Apple dropping mmWave capability from its newest iPad Pro despite providing the capability in the brand’s previous two iPad Pro iterations.
Regardless of the limitations, T-Mobile has shown its commitment to keep improving its services wherever possible, whether that means transforming the internet market in a few years by leading the charge into 5G home internet or swinging with the punches and finding useful ways to employ priorly-perceived duds like mmWave 5G.
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Author - Austin Aguirre
Austin worked as a broadband technician installing and troubleshooting countless home internet networks for some of the largest ISPs in the U.S. He became a freelance writer in 2020 specializing in software guides. After graduating with a BS in technical communication from Arizona State University, he joined the team at HighSpeedInternet.com where he focuses on home network improvement and troubleshooting.
Editor - Jessica Brooksby
Jessica loves bringing her passion for the written word and her love of tech into one space at HighSpeedInternet.com. She works with the team’s writers to revise strong, user-focused content so every reader can find the tech that works for them. Jessica has a bachelor’s degree in English from Utah Valley University and seven years of creative and editorial experience. Outside of work, she spends her time gaming, reading, painting, and buying an excessive amount of Legend of Zelda merchandise.
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