1700/2100 MHz (Band 4): Used by AT&T, T-Mobile, Verizon, and US Cellular.850 MHz (Band 5): Used by AT&T, T-Mobile, Verizon, and US Cellular.700 MHz (Bands 12 & 17): Used by AT&T, T-Mobile, and US Cellular. Our multi-carrier signal boosters support the following 4G and 5G frequencies: You won't experience gigabit speeds or 1ms latency with a signal booster. Expected performance will be similar to that of 4G. THUS, signal boosters will work with 5G networks deployed across the currently supported bands. Said supported bands are predominately 4G/LTE frequencies.Īs mentioned earlier, the lower end of the 5G spectrum uses similar frequencies as 4G networks. Per FCC regulations, signal boosters are only allowed to work with specific frequency bands. It all comes down to the supported cellular frequencies. Unlike low-band and the lower end of mid-band, mmWave 5G does not piggyback off 4G networks and must be deployed separately. These 5G frequencies, found between 24 to 39 GHz, offer insane speed and capacity, but very little coverage range.ĭue to its characteristics, High-Band 5G will only be available in densely populated cities. This is the band everybody talks about when describing 5G. In 2019, the FCC took steps to make the mmWave spectrum available for 5G use. This spectrum is completely new to mobile connectivity. High-Band 5G is in the mmWave (millimeter-wave) spectrum, hence the name “mmWave 5G”. Availability will be concentrated in urban and densely suburban areas, at least right now. There are only a few on the lower end that overlap with 4G frequencies. It offers less coverage than Low-Band 5G, but faster speeds. This allowed carriers to quickly deploy 5G using existing infrastructure. Some carriers’ Low-Band 5G and 4G networks even use the same frequency bands. Low-Band 5G and 4G share the same frequency spectrum. It's being rolled out nationwide, especially in rural and outlying suburban areas.Ĭoverage and speed are similar to 4G/LTE. Low-Band 5G refers to frequencies located between 600 MHz and 1 GHz. Thus, there are different types of 5G networks, each with different characteristics. To do so, 5G makes use of new technologies and a wider range of frequency spectrum. For Commercial First, There are Three Types of 5G NetworksĥG promises to deliver faster speeds, lower latency, and more capacity than 4G.
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