fbpx

5G Bands Frequency Across the World by Country

What is 5G? 5G is the 5th generation mobile network. It is a new global wireless standard after 1G, 2G, 3G, and 4G networks. 5G Frequency Bands are also in difference with 4G and 3G. Currently 5G is the latest iteration of cellular technology, and the upcoming evolution of wireless 4G LTE, which is mostly used today for wireless mobile networks. 5G is engineered to greatly increase the speed and responsiveness of wireless networks. It offers incredibly fast wireless communication that can be used to transmit all sorts of data at rates as high as 20 Gbps by some estimates — exceeding wireline network speeds — as well as offer latency of 1ms or lower for uses that require real-time feedback.

5G wireless technology is meant to deliver higher multi-Gbps peak data speeds, Ultra-low Latency more reliability, massive network capacity, increased availability, and a more uniform user experience to more users. Higher performance and improved efficiency empower new user experiences and connects new industries. 5G networks offer more reliable connections on smartphones and other devices than ever before. The networks will help power a huge rise on the Internet of Things technology, providing the infrastructure needed to carry huge amounts of data, allowing for a smarter and more connected world.

5G Frequency Bands:

BandFrequencyType
FR1450 to 6000 MHzSub-6 GHz
FR224250 to 52600 MHzmm-Wave

5G Bands FR1 FDD (Frequency Division Duplex) Frequency Bands for 5G-New Radio
5G NR BandUplink FrequencyDownlink FrequencyBandwidth
n11920 -1989 MHz2110 – 2170 MHz60 MHz
n21850 – 1910 MHz1930 – 1990 MHz60 MHz
n31710 – 1785 MHz1805 – 1880 MHz75 MHz
n5824 – 849 MHz869 – 894 MHz25 MHz
n72500 – 2670 MHz2620 – 2690 MHz70 MHz
n8880 – 915 MHz925 – 960 MHz35 MHz
n20832 – 862 MHz791 – 821 MHz30 MHz
n28703 – 748 MHz758 – 803 MHz45 MHz
n661710 – 1780 MHz2110 – 2200 MHz90 MHz
n701695 – 1710 MHz1995 – 2020 MHz15/25 MHz
n71663 – 698 MHz617 – 652 MHz35 MHz
n741427 – 1470 MHz1475 – 1518 MHz43 MHz

FR1 TDD (Time Division Duplex) Frequency 5G Bands for 5G-New Radio

5G NR BandUplink FrequencyDownlink FrequencyBandwidth
n382570 – 2620 MHz2570 – 2620 MHz50 MHz
n412469 – 2690 MHz2496 – 2690 MHz194 MHz
n501431 – 1517 MHz1432 – 1517 MHz85 MHz
n511427 – 1432 MHz1427 – 1432 MHz5 MHz
n773300 – 4200 MHz3300 – 4200 MHz900 MHz
n783300 – 3800 MHz3300 – 3800 MHz500 MHz
n794400 – 5000 MHz4400 – 5000 MHz600 MHz

FR1 Supplementary Downlink Bands (SDL) & Supplementary Uplink Bands (SUL) for 5G-New Radio

5G NR BandUplink FrequencyDownlink FrequencyBandwidthType
n751432 – 1517 MHz85 MHzSDL
n761427 – 1432 MHz5 MHzSDL
n801710 – 1785 MHz75 MHzSUL
n81880 – 915 MHz35 MHzSUL
n82832 – 862 MHz30 MHzSUL
n83703 – 748 MHz45 MHzSUL
n841920 – 1980 MHz60 MHzSUL

NR Frequency 5G Bands in FR2

5G NR BandBand AliasUplink BandDownlink BandBandwidthType
n25728 GHz26.5 – 29.5 GHz26.5 – 29.5 GHz3 GHzTDD
n25826 GHz24.250 – 27.5 GHz24.250 – 27.5 GHz3.250 GHzTDD
n26039 GHz37 – 40 GHz37 – 40 GHz3 GHzTDD

NR NETWORK 5G BANDS COUNTRY LIST:

CountryOperatorNetwork Bands
United StatesAT&Tn2, n5, n66, n77
T-Mobilen25, n41, n71, n77
Verizonn2, n5, n77
US Cellularn71, n77
C Spiren2, n12, n71, n77
United KingdomVodafonen1, n8, n78
O2n28, n78
3n28, n78
EEn28, n78
JapanSoftbankn77
NTT Docomon78, n79
Rakuten Mobilen77, n78
aun28, n77, n78
GermanyVodafonen3, n28, n78
Telekomn1, n28, n78
Telefonican3, n28, n78
1&1n78
AustraliaPotusn1, n3, n40, n78, n8
Telstran78, n5
Vodafonen28, n78
CanadaBelln78, n66
Rogersn66, n71, n41, n78, n71
Telusn78, n66
ItalyFastwebn78
Iliadn28, n78
OpNetn78
TIMn28, n78
Vodafonen28, n78
Wind Tren3, n7, n78
SpainMovistarn1, n3, n28, n78
Orangen28, n78
Vodafonen28, n78
Yoigon78
MexicoAT&Tn78
Telceln78
PolandOrangen1
Playn1
T-Mobilen1
RomaniaDigin78
Orangen78, n28, n50
Vodafonen28, n78, n7
Saudi ArabiaMobilyn41, n78
stcn40, n78
Zainn41, n78
United Arab Emiratesdun78
Etisalatn78
SingaporeM1n78, n1
Singteln78, n1
StarHubn78, n1
SIMBAn40, n1
QatarOoredoon78
Vodafonen28, n78
PortugalMEOn28, n78
NOSn28, n78
Vodafonen28, n78
MalaysiaDNBn28, n78
LithuaniaBite/Mezonn28, n40
Tele2n28, n78
Telian1, n28, n78
LatviaBiten28, n78
LMTn28, n78
Tele2n28, n78
IsraelCellcomn28, n78
HOTn28, n78
Partnern28, n78
Pelephonen28, n78
Ireland3n28, n78
Eirn28, n78
Vodafonen28, n78
IndiaAirteln78
Jion28, n78
HungaryTelekomn28, n78
Vodafonen28, n78
Yetteln28, n78
GreeceVodafonen28, n78
COSMOTEn28, n78
Wind Tren28, n78
FranceBouyguesn1, n78
Freen28, n78
Orangen1, n78
SFRn1, n78
FinlandDNAn28, n78
Elisan28, n78
Telian28, n78
Denmark3n28, n78
TDCn40, n78
TT-Netvarketn78
CzechiaO2n1, n3, n28, n78
T-Mobilen1, n3, n28, n78
Vodafonen1, n3, n28, n78
CroatiaA1n28, n78
HTn1, n78
Telemachn78
AustriaA1n78
Drein28, n78
Magentan1, n28, n78
   

For more 5G network details of your country, please check it on Wikipedia: List of 5G NR networks

More Info about 5G Technology:

5G technology has a theoretical peak speed of 20 Gbps, while the peak speed of 4G is only 1 Gbps. 5G also promises lower latency, which can improve the performance of business applications as well as other digital experiences (such as online gaming, videoconferencing, and self-driving cars).

While earlier generations of cellular technology (such as 4G LTE) focused on ensuring connectivity, 5G takes connectivity to the next level by delivering connected experiences from the cloud to clients. 5G networks are virtualized and software-driven, and they exploit cloud technologies.

The 5G network will also simplify mobility, with seamless open roaming capabilities between cellular and Wi-Fi access. Mobile users can stay connected as they move between outdoor wireless connections and wireless networks inside buildings without user intervention or the need for users to reauthenticate.

The new Wi-Fi 6 wireless standard (also known as 802.11ax) shares traits with 5G, including improved performance. Wi-Fi 6 radios can be placed where users need them to provide better geographical coverage and lower cost. Underlying these Wi-Fi 6 radios is a software-based network with advanced automation.

5G technology should improve connectivity in underserved rural areas and in cities where demand can outstrip today’s capacity with 4G technology. New 5G networks will also have a dense, distributed-access architecture and move data processing closer to the edge and the users to enable faster data processing.


Facebook
Twitter
LinkedIn
Email

Leave a Reply

Your email address will not be published. Required fields are marked *

Newsletter
Subscribe to our Newsletter & Event right now to be updated.

Get A Quote