Only a few companies are making the 5G cell tower hardware that will connect billions of devices to next-generation cellular networks, so when one of them issues a major software update, it can impact a huge number of people. That’s why Ericsson’s announcement of “cutting-edge Standalone New Radio (NR) software” today is actually a big deal: The company is updating its widely deployed tower hardware to support the international 5G NR standard’s newer Standalone mode, which enables 5G networks to be built without depending on older 4G infrastructure, radically increasing their performance.
As Ericsson explains, the Standalone NR software will enable carriers to upgrade existing tower hardware to support ultra-low latency, as well as improving 5G coverage and capacity. Ultra-low latency will enable 5G devices to go beyond just sending and receiving gigantic chunks of data at once, adding the ability to dynamically adjust as quickly as 1-millisecond (0.001 second), versus today’s markedly slower response times.
Ericsson also says that the software update will enable unspecified longer distances between towers, and adds a critical new feature called inter-band carrier aggregation. This will enable a phone to simultaneously receive and transmit 5G signals on its low band combined with either its midrange or high bands, somewhat akin to using two car radios tuned to 87.9 and 103.9 to pump out more complex audio than a single radio at either frequency.
Because the bands work differently, Ericsson expects inter-band carrier aggregation to particularly improve 5G speeds indoors, as well as in areas with poor coverage — the guaranteed low band signal you get everywhere could be augmented with a mid- or high-band 5G signal when it’s available, rather than choosing between just one type of signal. Network capacity can grow by 27%, or coverage can be expanded to 25% more people.
The company is also adding two new 16-transceiver Massive MIMO radios to its portfolio, AIR 1623 and AIR 1636, the former an inexpensive and easy option for building 5G sites, and the latter designed to build 5G “with precision.”