GSM frequency bands or frequency ranges are thecellular frequencies designated by theITU for the operation ofGSMmobile phones and othermobile devices.
| GSM band | ƒ (MHz) | Uplink (MHz) (mobile to base) | Downlink (MHz) (base to mobile) | Channel numbers | Equivalent LTE band /NR band | Regional deployments |
|---|---|---|---|---|---|---|
| T-GSM-380[a] | 380 | 380.2 – 389.8 | 390.2 – 399.8 | dynamic | None | None |
| T-GSM-410[a] | 410 | 410.2 – 419.8 | 420.2 – 429.8 | dynamic | 87/88 | None |
| GSM-450 | 450 | 450.6 – 457.6 | 460.6 – 467.6 | 259–293 | 31/72/73 | None |
| GSM-480 | 480 | 479.0 – 486.0 | 489.0 – 496.0 | 306–340 | None | None |
| GSM-710 | 710 | 698.2 – 716.2 | 728.2 – 746.2 | dynamic | 12/85 | None |
| GSM-750 | 750 | 777.2 – 792.2 | 747.2 – 762.2 | 438–511 | None | None |
| T-GSM-810[a] | 810 | 806.2 – 821.2 | 851.2 – 866.2 | dynamic | 27 | None |
| GSM-850 | 850 | 824.2 – 848.8 | 869.2 – 893.8 | 128–251 | 5 | CALA,[b] NAR[c] |
| P-GSM-900[d] | 900 | 890.0 – 915.0 | 935.0 – 960.0 | 1–124 | 8 (subset) | None deprecated |
| E-GSM-900[e] | 900 | 880.0 – 915.0 | 925.0 – 960.0 | 0–124, 975–1023 | 8 | APAC,[f]EMEA[g] |
| R-GSM-900[h] | 900 | 876.0 – 915.0 | 921.0 – 960.0 | 0–124, 955–1023 | 8/100 | APAC,[f]EMEA[g] used forGSM-R |
| T-GSM-900[a] | 900 | 870.4 – 876.0 | 915.4 – 921.0 | dynamic | None | None |
| DCS-1800[i] | 1800 | 1710.2 – 1784.8 | 1805.2 – 1879.8 | 512–885 | 3 | APAC,[f]EMEA[g] |
| PCS-1900[j] | 1900 | 1850.2 – 1909.8 | 1930.2 – 1989.8 | 512–810 | 2 | CALA,[b] NAR[c] |
A dual-band 900/1800 device is required to be compatible with most networks apart from deployments inITU Region 2.
GSM-900 and GSM-1800 are used in most parts of the world (ITU-Regions 1 and 3):Africa,Europe,Middle East,Asia (apart fromJapan andSouth Korea whereGSM has never been introduced) andOceania.
In common GSM-900 is most widely used. Fewer operators use GSM-1800.Mobile Communication Services on Aircraft (MCA) uses GSM-1800.[1]
In some countries GSM-1800 is also referred to as "Digital Cellular System" (DCS).[2]
GSM-1900 and GSM-850 are used in most of North, South and Central America (ITU-Region 2).In North America, GSM operates on the primary mobile communication bands 850 MHz and 1900 MHz. InCanada, GSM-1900 is the primary band used in urban areas with 850 as a backup, and GSM-850 being the primary rural band. In theUnited States, regulatory requirements determine which area can use which band.
The termCellular is sometimes used to describe GSM services in the 850 MHz band, because the originalanalog cellular mobile communication system was allocated in this spectrum. Further GSM-850 is also sometimes calledGSM-800 because this frequency range was known as the "800 MHz band" (for simplification) when it was first allocated forAMPS in the United States in 1983. InNorth America GSM-1900 is also referred to asPersonal Communications Service (PCS) like any other cellular system operating on the "1900 MHz band".
Some countries in Central and South America have allocated spectrum in the 900 MHz and 1800 MHz bands for GSM in addition to the common GSM deployments at 850 MHz and 1900 MHz for ITU-Region 2 (Americas). The result therefore is a mixture of usage in the Americas that requires travelers to confirm that the devices they have are compatible with the bands of the network at their destination.Frequency compatibility problems can be avoided through the use of multi-band (tri-band or, especially, quad-band) device.
The following countries are mixing GSM 900/1800 and GSM 850/1900 bands:[3]
| Region | Country/Territory | GSM-850 | GSM-1900 | GSM-900 | GSM-1800 |
|---|---|---|---|---|---|
| Caribbean | Antigua and Barbuda |  | | |  |
| Aruba,Bonaire andCuracao | | | | | |
| Barbados | | | | | |
| British Virgin Islands | | | | | |
| Cayman Islands | | | | | |
| Dominica | | | | | |
| Dominican Republic | | | | | |
| Grenada | | | | | |
| Haiti | | | | | |
| Jamaica | | | | | |
| Saint Kitts and Nevis | | | | | |
| Saint Lucia | | | | | |
| Saint Vincent and the Grenadines | | | | | |
| Turks and Caicos Islands | | | | | |
| Central America | Costa Rica | | | | |
| El Salvador | | | | | |
| Guatemala | | | | | |
| South America | Brazil | | | | |
| Uruguay | | | | | |
| Venezuela | | | | |
Another less common GSM version is GSM-450.[4] It uses the same band as, and can co-exist with, old analogNMT systems. NMT is a first generation (1G) mobile system which was primarily used inNordic countries,Benelux,Alpine Countries,Eastern Europe andRussia prior to the introduction of GSM. TheGSM Association claims one of its around 680 operator-members has a license to operate a GSM 450 network inTanzania. However, currently all active public operators in Tanzania use GSM 900/1800 MHz. There are no publicly advertised handsets for GSM-450 available.
Very few NMT-450 networks remain in operation. Overall, where the 450 MHz NMT band has been licensed, the original analogue network has been closed, and sometimes replaced byCDMA. Some of the CDMA networks have since upgraded from CDMA toLTE (LTE band 31).
Today, most telephones support multiple bands as used in different countries to facilitateroaming. These are typically referred to as multi-band phones. Dual-band phones can cover GSM networks in pairs such as 900 and 1800 MHz frequencies (Europe, Asia, Australia and Brazil) or 850 and 1900 (North America and Brazil). European tri-band phones typically cover the 900, 1800 and 1900 bands giving good coverage in Europe and allowing limited use in North America, while North American tri-band phones utilize 850, 1800 and 1900 for widespread North American service but limited worldwide use. A new addition has been the quad-band phone, also known as a World Phone,[5] supporting at least all four major GSM bands, allowing for global use (excluding non-GSM countries such as Japan, South Korea and as well countries where 2G system was shut down to release frequencies and spectrum for LTE networks like Australia (since 2017), Singapore and Taiwan (since 2018).
There are also multi-mode phones which can operate on GSM as well as on other mobile phone systems using other technical standards or proprietary technologies. Often these phones use multiple frequency bands as well. For example, one version of the Nokia 6340iGAIT phone sold in North America can operate on GSM-1900, GSM-850 and legacyTDMA-1900, TDMA-800, andAMPS-800, making it both multi-mode and multi-band. As a more recent example the AppleiPhone 5 andiPhone 4S support quad-band GSM at 850/900/1800/1900 MHz, quad-band UMTS/HSDPA/HSUPA at 850/900/1900/2100 MHz, and dual-bandCDMAEV-DO Rev. An at 800/1900 MHz, for a total of 'six' different frequencies (though at most four in a single mode). This allows the same handset to be sold forAT&T Mobility,Verizon, andSprint in the U.S. as well as a broad range of GSM carriers worldwide such asVodafone,Orange andT-Mobile (Excluding-US), many of whom offer official unlocking.
Cellular network standards | |||||||||
|---|---|---|---|---|---|---|---|---|---|
| 0Gradio telephones (1946) | |||||||||
| 1G (1979) |
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| 2G (1991) |
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| 2G transitional (2.5G, 2.75G, 2.9G) |
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| 3G (1998) IMT-2000 (2001) |
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| 3G transitional (3.5G, 3.75G, 3.9G) |
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| 4G (2009) IMT Advanced (2013) |
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| 5G (2018) IMT-2020 (2021) |
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| Related articles | |||||||||
