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The '''800 MHz frequency band''' is a portion of the [[Physics:Electromagnetic spectrum|electromagnetic spectrum]], or [[Frequency band|frequency band]], that encompasses 790–862 MHz.

Being a part of the spectrum known as "UHF Bands IV and V" (i.e. 470 MHz to 862 MHz) it was allocated by the [[Organization:International Telecommunication Union|ITU]] to Broadcasting as the primary user in Region 1 and was used for analogue television broadcasting before changing to [[Engineering:Digital terrestrial television|digital terrestrial television]] in many countries.<ref group="nb">The 'Mobile Service' in ITU terms, not to be confused with mobile phone operators, was allocated as a secondary user of the band</ref> As such it is also referred to as "[[Physics:Digital dividend after digital television transition|digital dividend]]" spectrum. In [[Earth:Europe|Europe]] and to some extent elsewhere, the band corresponds to [[Engineering:Television channel frequencies#Western Europe.2C Greenland.2C most countries in Asia and Africa.2C and most of Oceania|UHF channel 61–69]]. In most territories the band was also used by Services Ancillary to Broadcasting (SAB) or Services Ancillary to Programme Making (SAP), both often now referred to as [[Engineering:Programme making and special events|PMSE (Programme Making and Special Events)]] in the form of professional wireless microphones, radio talkback systems and wireless monitor systems.

The European Parliament approved in May 2010, and [[Earth:Japan|Japan]] in 2012, the change of use of the 800 MHz band making it available for purposes other than broadcasting (television) – e.g. mobile broadband.<ref>[http://www.intomobile.com/2010/05/14/europes-800-mhz-band-americas-700-mhz-band-4g-has-a-long-way-to-go/ May 14th, 2010, intomobile.com: Europe’s 800 MHz band = America’s 700 MHz band; 4G has a long way to go] Citat: "...Last week the European Commission announced that they’ve chosen 800 MHz as a standard to introduce mobile broadband across the continent..."</ref>

From the year 2013 the 800 MHz band can be used to deliver [[Engineering:Wireless broadband|wireless broadband]] services, in Europe.<ref>[http://news.techeye.net/internet/eu-demands-freeing-up-800-mhz-spectrum-by-2013 16 Feb 2012, techeye.net: EU demands freeing up 800 MHz spectrum by 2013] {{Webarchive|url=https://web.archive.org/web/20120217211312/http://news.techeye.net/internet/eu-demands-freeing-up-800-mhz-spectrum-by-2013 |date=17 February 2012 }} Quote: "...to ensure a comprehensive roll out of high speed mobile broadband..."</ref>

== Possible interference problems ==
Some claim that there have not been enough interference studies made in the EU.<ref>[http://www.computerworlduk.com/news/public-sector/3318488/eu-rules-on-radio-spectrum-ignore-interference-issues-group-claims/ 15 November 11, computerworlduk.com: EU rules on radio spectrum ignore interference issues, group claims] {{Webarchive|url=https://web.archive.org/web/20160316235300/http://www.computerworlduk.com/news/mobile/eu-rules-on-radio-spectrum-ignore-interference-issues-group-claims-3318488/ |date=16 March 2016 }} Quote: "...Under the RSPP, all EU countries must make the 800MHz band available for wireless broadband services by January 1, 2013...However, newcomers to the 800MHz band that "speaks loudly" could drown out other sorts of communications being executed by consumer equipment (such as television tuners or cable modems)..." </ref><ref>[http://www.ispreview.co.uk/story/2011/06/02/760000-uk-households-could-lose-digital-tv-due-to-superfast-mobile-broadband.html 2 June, 2011, ispreview.co.uk: 760000 UK Households Could Lose Digital TV Due to Superfast Mobile Broadband] Quote: "...Ofcom warns that some situations could be too difficult or costly to fix and suggests that it may be "preferable to maintain the consumers’ access to TV while accepting the loss of the DTT service". In other words, you'd (about 30,000 homes) have to fork out for a satellite or cable service..."</ref>

The reason for the interference problem is that the [[Engineering:RF chain|RF chain]] in TV-equipment is designed to receive 470–862 MHz (EU channels 21–69) and therefore includes the range of frequencies which the new services are, or will be, using. Most TV receiving equipment in current use and currently on the market was not designed with the expectation that there would be anything but TV signals in the frequency range 470 MHz to 862 MHz. Due to the very limited [[Physics:Guard band|guard band]] between the new services and the existing TV services in some cases the LTE 800 base station signals may cause interference to DTT particularly in EU channels 59 and 60.

Strong LTE base station signals in 800 MHz band, may cause limiting or [[Clipping (signal processing)|clipping]], that is due to overdrive in [[Engineering:Antenna amplifier|antenna amplifier]]s and/or DTT tuners in e.g. [[Flat-panel display|flat panel]]s, set top boxes, USB-tuners and [[Engineering:Digital video recorder|digital video recorder]]s.

Depending on the dynamic range performance of the affected receiving equipment, the following may happen:
* When [[Forward error correction|forward error correction]] (FEC) is adequate, the TV reception will be unaffected
* If the interference is sufficiently severe such that FEC cannot correct all of the errors, there will be pixelation in the picture and/or there will be sound drop-outs.
* In severe cases of interference the error correction will not cope at all and this will result in a black TV-screen and / or complete loss of sound.

Overload in the RF chain will not only affect one TV channel. All signals passing through the overloaded device will be affected for as long as the device remains overloaded.

Essentially there are two types of interference sources in the 800 MHz band: The LTE base stations and the mobile terminals — handsets, tablets, dongles — which are sometimes close to TV equipment. Although the base stations may be relatively far away from the TV equipment they may be adjacent to the TV antenna, or if further away they may be in the 'beam' of the TV antenna, i.e. in the direction which the TV antenna points, and considerably closer than the TV transmitter which it is desired to receive resulting in a high level of interfering signal in the TV system. In the case of apartments, hotels, schools, colleges, offices, etc. with communal TV antenna systems the base station may be very close indeed, even on the same roof.

For the time being there are not many terminals in the European market that use the LTE 800 frequency band but this is increasing rapidly.

In the UK an organisation (Digital Mobile Spectrum Limited (DMSL), known as "at800") was set up specifically to mitigate any interference from the new LTE 800 services to TV reception in the UK.<ref>{{Cite web|url=https://at800.tv/find-out-more/about-us/|title = At800 | Restore TV | TV interference}}</ref>

== "Channel 70" interference ==

The frequency band between 862 MHz to 870 MHz, or a subset of this band, e.g. 863 MHz to 865 MHz, is sometimes referred to as 'Channel 70'. 862 MHz to 870 MHz is itself divided into many smaller sub-bands used in many territories by vast numbers of a wide range of different low power radio devices, often on a licence exempt basis (Historically it has also been used in Italy for TV broadcasting, one example being Telequattro transmitting on that channel from Castaldia, province of Pordenone, prior to the analog TV switch off). For example, 863 MHz to 865 MHz is used in many European countries by cordless audio devices such as some cordless headphones, assistive listening devices (used by the hard of hearing) and some wireless microphones.

Any low power radio devices operating in the range 862 MHz to 870 MHz are most likely to be affected by interference from the portable devices using the 800 MHz LTE system since they will be transmitting in the upper part of the 790 MHz to 862 MHz band, i.e. the part of the band which is closest to the frequencies used by Low Power Radio Devices.

== 868 MHz interference ==
Systems that use the 868 MHz-band (868–870 MHz), for example, thermostats, fire systems, burglar systems, and DIN-transceivers may have difficulty communicating when there is a strong 800 MHz broadband transmitter nearby.<ref>[http://www.rfdesignuk.com/Documents/LTE%20800MHz%204G%20FAQ%20v1.pdf rfdesignuk.com: LTE 800MHz 4G introduction in Europe and interference to the 868MHz SRD band. Frequently asked questions] {{Webarchive|url=https://web.archive.org/web/20121224073130/http://www.rfdesignuk.com/Documents/LTE%20800MHz%204G%20FAQ%20v1.pdf |date=2012-12-24 }} Quote: "...Q4 What types of 868MHz SRD are prone to 4G interference, is it only low cost receivers?...Consequently, almost all receiver types across a broad range of complexity and cost, will suffer significant degradation in areas where 4G products are in operation..."</ref>

== Notes ==
{{reflist|group=nb}}

== References ==
{{reflist}}

== External links ==
* [http://stakeholders.ofcom.org.uk/consultations/800mhz/ ofcom.org.uk: Digital dividend: clearing the 800 MHz band]
* [https://at800.tv/find-out-more/the-problem/ at800: The Problem with 4G LTE 800 and Freeview ]

[[Category:Radio spectrum]]
[[Category:Radio technology]]

{{Sourceattribution|800 MHz frequency band}}

Physics:800 MHz frequency band - Revision history

WikiHarold: correction