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99-540: The IEEE defines the UHF radar band as frequencies between 300 MHz and 1 GHz. Two other IEEE radar bands overlap the ITU UHF band: the L band between 1 and 2 GHz and the S band between 2 and 4 GHz. Radio waves in the UHF band travel almost entirely by line-of-sight propagation (LOS) and ground reflection; unlike in the HF band there is little to no reflection from

198-408: A UHF Yagi antenna with similar gain is often found placed in front of it, occupying perhaps 1 m. Modern UHF-only antennas often use the bedspring array and are less than a meter on a side. Another effect due to the shorter wavelength is that UHF signals can pass through smaller openings than VHF. These openings are the spaces between any metal in the area, including lines of nails or screws in

297-607: A UHF frequency. Over time a number of former television channels in the upper UHF band have been re-designated for other uses. Channel 37 was never used in the US and some other countries in order to prevent interference with radio astronomy . In 1983, the US FCC reassigned channels 70 through 83 to the Land Mobile Radio System . In 2009, with the move to digital television complete in the US, channels 52 through 69 were reallocated as

396-565: A certain knowledge area, which provide specialized publications, conferences, business networking and other services. In September 2008, the IEEE History Committee founded the IEEE Global History Network , which now redirects to Engineering and Technology History Wiki . The IEEE Foundation is a charitable foundation established in 1973 to support and promote technology education, innovation, and excellence. It

495-421: A distance greater than the line of sight is required. Occasionally when conditions are right, UHF radio waves can travel long distances by tropospheric ducting as the atmosphere warms and cools throughout the day. The length of an antenna is related to the length of the radio waves used. Due to the short wavelengths, UHF antennas are conveniently stubby and short; at UHF frequencies a quarter-wave monopole ,

594-609: A drop that was only partially compensated for by field upgrades or the availability of external UHF converters for separate purchase. Plummeting inclusion of UHF tuners in sets placed VHF–UHF intermixture at grave risk of failure. On the transmission side, UHF stations were also found to have issues involving transmission distance and strength. The FCC tried solving this problem by allowing the lower-powered UHF stations to broadcast with more power, but VHF continued to have more stations. Advertisers soon caught on to this and did most of their business with VHF stations since UHF tuner adoption

693-507: A huge setback after a forced move from a 42–50 MHz allocation to an 88–108 MHz allocation in 1946. This had rendered all pre-1946 FM transmitters and receivers obsolete, and there was heavy resistance to moving FM a second time. Aeronautical radio is located above 108 MHz; military aeronautical radio used 225–400 MHz. Additional public safety, commercial land-mobile, and amateur radio services had allocations in Band II . It

792-460: A length so that the desired radio signal will create a standing wave of electrical current within them. This means that antennas have a natural size, normally 1 ⁄ 2 of a wavelength long, which maximizes performance. Antennas designed to receive the same signal will almost always have similar dimensions. Because the antenna size is based on the wavelength, UHF broadcasting can be received with much smaller antennas than VHF while still having

891-600: A paid UHF station offers foreign programs not shown on local TV and commencing regular service in January 1993, but it was closed down as a result from intense competition from the rival Sky Cable . From 2001 to the present, more channels were established, regional stations are established in the provinces which specialize news, public service and free programming. With Digital TV was introduced, all UHF channels will allocate their frequencies and can be served for broadcast companies such as ABS-CBN, GMA Network and TV5 , among others as

990-622: A satellite feed directly from their U.S. military bases in Japan), at the time when Mount Pinatubo erupted and became abandoned. Commercial UHF stations began in May, 1992, as DWCP-TV on channel 21 became the first local UHF TV station in Metro Manila by the Southern Broadcasting Network as SBN-21 (then Talk TV ) and commenced free programing, the second channel, DWKC-TV (on channel 31) of

1089-410: A sharp "blip" of noise, but leaves the signal clear at other times. This normally comes from local electrical sources, and can be mitigated by turning them off. This means that at a given received power, a UHF analog signal will appear worse than VHF, often significantly. For these reasons, in order to allow UHF stations to provide the same ground coverage as VHF, ideally about 60 miles (97 km),

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1188-546: A year". The freeze would give the FCC and broadcasting interests time to address questions such as the allocation of additional channel frequencies, and the selection of a color television standard. At the time of the freeze, less than 100 stations were on the air, but stations already under construction would be allowed to complete work. All but one of these was on the VHF band; on December 29, 1949, KC2XAK of Bridgeport, Connecticut , became

1287-428: Is a considerable amount of lawful unlicensed activity (cordless phones, wireless networking) clustered around 900 MHz and 2.4 GHz, regulated under Title 47 CFR Part 15 . These ISM bands —frequencies with a higher unlicensed power permitted for use originally by Industrial, Scientific, Medical apparatus—are now some of the most crowded in the spectrum because they are open to everyone. The 2.45 GHz frequency

1386-649: Is an American 501(c)(3) professional association for electrical engineering , electronics engineering , and other related disciplines. The IEEE has a corporate office in New York City and an operations center in Piscataway, New Jersey . The IEEE was formed in 1963 as an amalgamation of the American Institute of Electrical Engineers and the Institute of Radio Engineers . The IEEE traces its founding to 1884 and

1485-530: Is for cellphones , allowing handheld mobile phones be connected to the public switched telephone network and the Internet . Current 3G and 4G cellular networks use UHF, the frequencies varying among different carriers and countries. Satellite phones also use this frequency in the L band and S band . UHF channels are used for digital television broadcasting on both over the air channels and cable television channels . Since 1962, UHF channel tuners (at

1584-677: Is incorporated separately from the IEEE, although it has a close relationship to it. Members of the Board of Directors of the foundation are required to be active members of IEEE, and one third of them must be current or former members of the IEEE Board of Directors. Initially, the role of the IEEE Foundation was to accept and administer donations for the IEEE Awards program, but donations increased beyond what

1683-604: Is one of a loosely knit group of free commercial terrestrial television stations that is not a member of the major national networks keyed in Tokyo and Osaka . Japan's original broadcasters were VHF. Although some experimental broadcasts were made as early as 1939, NHK (founded in 1926 as a radio network modeled on the BBC) began regular VHF television broadcasting in 1953. Its two terrestrial television services ( NHK General TV and NHK Educational TV ) appear on VHF 1 and 3, respectively, in

1782-488: Is operated mostly by local governments or metropolitan newspapers with less outside control. Compared with major network stations, Japan's UHF independents have more restrictive programming acquisition budgets and lower average ratings; they are also more likely to broadcast single episode or short-series UHF anime (many of which serve to promote DVD's or other product tie-ins) and brokered programming such as religion and infomercials . Japanese terrestrial television

1881-452: Is the standard for use by microwave ovens , adjacent to the frequencies allocated for Bluetooth network devices. The spectrum from 806 MHz to 890 MHz (UHF channels 70 to 83) was taken away from TV broadcast services in 1983, primarily for analog mobile telephony . In 2009, as part of the transition from analog to digital over-the-air broadcast of television , the spectrum from 698 MHz to 806 MHz (UHF channels 52 to 69)

1980-418: Is the use of ultra high frequency (UHF) radio for over-the-air transmission of television signals . UHF frequencies are used for both analog and digital television broadcasts. UHF channels are typically given higher channel numbers, like the US arrangement with VHF channels (initially) 1 to 13, and UHF channels (initially) numbered 14 to 83. Compared with an equivalent VHF television transmitter, to cover

2079-859: Is usually allocated for VCRs, decoder units (i.e. the ASTRO and MiTV set top boxes ) and other devices that have an RF signal generator (i.e. game consoles). Refer to Australian and New Zealand television frequencies for more information. UHF broadcasting was introduced in the Philippines in the early 1960s when FEN Philippines began broadcasts on channel 17 in Pampanga and Zambales (as in Subic and Clark bases), and channel 43 in Bulacan and also in Metro Manila on Channel 50 until 1991 (most of its programs and newscasts are from

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2178-510: The 2022 Russian invasion of Ukraine and requesting the IEEE Spectrum to acknowledge "that they have unwittingly published a piece furthering misinformation and Russian propaganda." A few days later a note from the editors was added on April 6 with an apology "for not providing adequate context at the time of publication", though the editors did not revise the original article. UHF television broadcasting UHF television broadcasting

2277-547: The American Broadcasting Company and DuMont Television Network , the need for additional TV channels in major markets was urgent. For proponents of educational TV broadcasting, the difficulties in competing with commercial broadcasters for the increasingly scarce VHF channels was also a problem. Allocating more of the VHF band (30 to 300 MHz ) by moving existing radio communication users away seemed to be impossible. FM radio broadcasting had already suffered

2376-587: The American Institute of Electrical Engineers . In 1912, the rival Institute of Radio Engineers was formed. Although the AIEE was initially larger, the IRE attracted more students and was larger by the mid-1950s. The AIEE and IRE merged in 1963. The IEEE is headquartered in New York City , but most business is done at the IEEE Operations Center in Piscataway, New Jersey , opened in 1975. The Australian Section of

2475-648: The Australian Broadcasting Corporation (ABC). The UHF band is now used extensively as ABC , SBS, commercial and public-access television services have expanded, particularly through regional areas. The first Canadian television network was publicly owned Radio-Canada, the Canadian Broadcasting Corporation . Its stations, as well as that of the first private networks ( CTV and TVA , created in 1961), are primarily VHF. More recent third-network operators that initially signed on in

2574-653: The National Telecommunications Commission plans to migrate all VHF channels to digital UHF channels before December 31, 2015, though this was delayed several times. Digital terrestrial television services are currently in development by the major broadcasting companies before the Implementing Rules and Regulations (IRR) will be passed by law. South Africa only received analog TV service from 1976 onwards. There were three TV channels: TV1 (now SABC1), TV2 (now SABC2), TV3 (now SABC3), and later came

2673-762: The Radio Mindanao Network was launched on October 31 of the same year as CTV-31 from 1992 to 2000 (then E! from 2000 to 2003 and BEAM in 2011). The third channel, DZRJ-TV (channel 29) was also launched in 1993 for the Rajah Broadcasting Network, Inc. which specializes niche programing (mostly infomercials, foreign shows and cartoons). Two more channels include DWDB-TV (channel 27) of GMA Network, Inc. (as Citynet Television from 1995 to 1999 and EMC from 1999 to 2001) and DWAC-TV (channel 23) of ABS-CBN (as Studio 23 ) between August 27, 1995 and October 12, 1996, as fourth and fifth UHF stations, and

2772-703: The Republic of Ireland , UHF was introduced in 1978 to augment the existing RTÉ One VHF 625-line transmissions and to provide extra frequencies for the new RTÉ Two channel. The first UHF transmitter site was Cairn Hill in County Longford , followed by Three Rock Mountain in South County Dublin . These sites were followed by Clermont Carn in County Louth and Holywell Hill in County Donegal in 1981. Since

2871-433: The backward compatible NTSC standard led to these channels being released for any television use in 1952. Early receivers were generally less efficient at UHF band reception, and the signals are also subject to more environmental interference. Additionally, the signals are less susceptible to diffraction effects, which can improve reception at long range. UHF generally had less clear signals, and for some markets, became

2970-508: The digital transition was completed in August 2011. Digital Audio Broadcasting , deployed on a very limited scale in Canada in 2005 and largely abandoned, uses UHF frequencies in the L band from 1452 to 1492 MHz. There are currently no VHF Band III digital radio stations in Canada as, unlike in much of Europe, these frequencies are among the most popular for use by television stations. In

3069-498: The ionosphere ( skywave propagation), or ground wave . UHF radio waves are blocked by hills and cannot travel beyond the horizon, but can penetrate foliage and buildings for indoor reception. Since the wavelengths of UHF waves are comparable to the size of buildings, trees, vehicles and other common objects, reflection and diffraction from these objects can cause fading due to multipath propagation , especially in built-up urban areas. Atmospheric moisture reduces, or attenuates ,

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3168-595: The "severe legal implications" of U.S. government sanctions against Huawei. As members of its standard-setting body, Huawei employees could continue to exercise their voting rights, attend standards development meetings, submit proposals and comment in public discussions on new standards. The ban sparked outrage among Chinese scientists on social media. Some professors in China decided to cancel their memberships. On June 3, 2019, IEEE lifted restrictions on Huawei's editorial and peer review activities after receiving clearance from

3267-444: The 1930s with regular commercial broadcasting in cities such as New York and Chicago in 1941. Efforts at TV broadcasting on any channel were drastically curtailed once World War II began, due largely to lack of available receivers. The upper five VHF channels were removed from the FCC allocation list during the war with those frequencies re-allocated for military use, leaving thirteen channels (1 through 13) as of May 1945. The end of

3366-434: The 1970s or 1980s were often relegated to UHF, or (if they were to attempt to deploy on VHF) to reduced power or stations in outlying areas . Canada's VHF spectrum was already crowded with both domestic broadcasts and numerous American TV stations along the border. The use of UHF to provide programming that otherwise would not be available, such as province-wide educational services (BC's Knowledge: channel, or TVOntario -

3465-436: The 700 MHz band for cellular telephone service. In 2011, Channel 51 was removed to prevent interference with the 700 MHz cellular band. Additionally, in 2019 the US removed channels 38 through 50 to use them for cellular phone service. Thus UHF TV in the US now only includes channels 14 through 36. The most common type of antennas rely on the concept of resonance . Conductors, normally metal wires or rods, are cut to

3564-529: The 82 channels possible under the standard 6 MHz bandwidth. CBS Vice President Adrian Murphy told the FCC: "I would say that it would be better to have two networks in color" instead of the four or more networks possible with narrower bandwidths in UHF. In October 1948, the Federal Communications Commission stopped accepting applications for new stations, a freeze expected to last "six months to

3663-602: The 82 new UHF-TV stations in the United States broadcasting as of June 1954, only 24 of them remained a year later. The majority of the 165 UHF stations to begin telecasting between 1952 and 1959 did not survive. Not until the passage of the 1962 All-Channel Receiver Act did FCC regulations require all new TV sets sold in the U.S. to have built-in UHF tuners that could receive channels 14–83. Even though that requirement came into effect on April 30, 1964, there were only about 170 full-service UHF stations in operation in 1971. In

3762-438: The FCC allowed UHF broadcasters to operate at much higher power levels. For analog signals in the United States, VHF signals on channels 2 to 6, the low-VHF range, were limited to 100 kW, high-VHF on channels 7 to 13 to 316 kW, and UHF to 5 MW, well over 10 times the power of the low-VHF transmitter power limit. This greatly increased the cost of transmitting in these frequencies, both in electrical cost as well as

3861-544: The IEEE existed between 1972 and 1985, after which it split into state- and territory-based sections. As of 2023 , IEEE has over 460,000 members in 190 countries, with more than 66 percent from outside the United States. IEEE claims to produce over 30% of the world's literature in the electrical, electronics, and computer engineering fields, publishing approximately 200 peer-reviewed journals and magazines. IEEE publishes more than 1,700 conference proceedings every year. The published content in these journals as well as

3960-819: The Tokyo region. Privately owned Japanese VHF TV stations were most often built by large national newspapers with Tokyo stations exerting a large degree of control over national programming. The number of VHF broadcasters varied depending on the prefecture. For example, in the Kanto region , there were seven VHF channels available. Outside of Tokyo, Osaka , Nagoya , and Fukuoka , most prefectures had four privately owned television stations, with three of them broadcasting on UHF. Almost all prefectures had at least one privately owned VHF television station (except for Saga ). The independent stations broadcast in analogue UHF, unlike major networks, which were historically broadcast primarily in analogue VHF . The loose coalition of UHF independents

4059-469: The UHF spectrum is used worldwide for land mobile radio systems, two-way radios used for voice communication for commercial, industrial, public safety, and military purposes. Examples of personal radio services are GMRS , PMR446 , and UHF CB . The most rapidly-expanding use of the band is Wi-Fi ( wireless LAN ) networks in homes, offices, and public places. Wi-Fi IEEE 802.11 low band operates between 2412 and 2484 MHz. A second widespread use

Ultra high frequency - Misplaced Pages Continue

4158-431: The US, the FCC initially wanted to move all stations to UHF. This would have required a large number of stations to move out of their current VHF channel assignments. Moving from one UHF channel to another is a fairly simple exercise and generally costs little to accomplish. Moving from VHF to UHF is a much more expensive proposition, generally requiring all new equipment, and a dramatic increase in power in order to maintain

4257-582: The United States government. On February 26, 2022, the chair of the IEEE Ukraine Section, Ievgen Pichkalov, publicly appealed to the IEEE members to "freeze [IEEE] activities and membership in Russia" and requested "public reaction and strict disapproval of Russia's aggression" from the IEEE and IEEE Region 8. On March 17, 2022, an article in the form of Q&A interview with IEEE Russia (Siberia) senior member Roman Gorbunov titled "A Russian Perspective on

4356-468: The United States, UHF stations gained a reputation for local ownership, nonprofessional operations, small audiences and weak signal propagation. While UHF-TV was available to American TV broadcasters in today's form since 1952, affiliates of the 1950s four largest American TV networks ( NBC , CBS , ABC , and DuMont ) preferentially transmitted on VHF wherever it was available. All available VHF-TV allocations were already in use in most large TV markets by

4455-406: The VHF band because of their bandwidth demands; more significantly, it offered the possibility for sufficient numbers of conventional 6 MHz channels to support the FCC's goals of a "truly nationwide and competitive service". CBS was not trying to maximize broadcast (or network) competition through freer market entry. Instead CBS's 16 MHz channels would have allowed only 27 UHF channels versus

4554-400: The VHF stations, losing $ 10,500,000 in 1953. More stations left the air than opened, and sixty percent of television industry losses from 1953 to 1956 came from UHF stations. TV network affiliations were difficult to get in many locations; the UHF stations with major-network affiliation would often lose these affiliations in favor of any viable new VHF TV station that entered the same market. Of

4653-608: The War in Ukraine" was published in IEEE Spectrum to demonstrate "the plurality of views among IEEE members" and the "views that are at odds with international reporting on the war in Ukraine". On March 30, 2022, activist Anna Rohrbach created an open letter to the IEEE in an attempt to have them directly address the article, stating that the article used "common narratives in Russian propaganda" on

4752-623: The analogue television switchoff on October 24, 2012, all digital terrestrial TV is on UHF only, although VHF allocations exist. The UHF band has been used in parts of Ireland for television deflector systems bringing British television signals to towns and rural areas that cannot receive these signals directly. However, since the introduction of free to air satellite transmission of UK TV channels these deflectors have largely ceased operation. In Japan, an Independent UHF Station ( ja:全国独立UHF放送協議会 , Zenkoku Dokuritsu Yū-eichi-efu Hōsō Kyōgi-kai , literally National Independent UHF Broadcasting Forum)

4851-431: The base assumption that a UHF television station was functionally equivalent to a VHF one. To allocate four to as many as seven VHF channels to each of the largest cities would mean forcing the smaller, intervening cities completely onto UHF channels, while an allocation scheme that sought to assign one or two VHF channels in each smaller city would force VHF and UHF stations to compete in most markets. The largest cities with

4950-610: The channel crowding problem, the following cities were never allocated any VHF-TV stations at all, due to technical reasons found by the FCC: Huntsville, Alabama ; Peoria, Illinois ; Fort Wayne, Indiana ; South Bend, Indiana , Lexington, Kentucky ; Springfield, Massachusetts ; Elmira, New York ; Youngstown, Ohio ; Scranton / Wilkes-Barre, Pennsylvania ; and Yakima, Washington . Other cites were able to receive only one VHF broadcast station. The entire state of New Jersey would receive only one VHF broadcast station of its own (which

5049-482: The complex over-lapping led to the fifth and final network having a significantly reduced national coverage compared to the other networks, with reduced picture quality in many areas and the use of wide-band aerials often required. The launch of digital terrestrial television in 1998 saw the continued use of UHF for television, with six multiplexes allocated for the service, all within the UHF band. Analogue transmissions have ceased completely since 2012 after which

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5148-567: The content from several hundred annual conferences sponsored by the IEEE are available in the IEEE Electronic Library (IEL) available through IEEE Xplore platform, for subscription-based access and individual publication purchases. In addition to journals and conference proceedings, the IEEE also publishes tutorials and standards that are produced by its standardization committees. The organization also has its own IEEE paper format. IEEE has 39 technical societies, each focused on

5247-514: The conversion period was over. This adds some complexity to the system as a whole, as the antennas needed to receive VHF and UHF are very different. In Australia, UHF was first anticipated in the mid-1970s with TV channels 27–69. The first UHF TV broadcasts in Australia were operated by Special Broadcasting Service (SBS) on channel 28 in Sydney and Melbourne starting in 1980, and translator stations for

5346-624: The downside, higher frequencies are less susceptible to diffraction. This means that the signals will not bend around obstructions as readily as a VHF signal. This is a particular problem for receivers located in depressions and valleys. Normally the upper edge of the landform acts as a knife-edge and causes the signal to diffract downwards. VHF signals will be seen by antennas in the valley, whereas UHF bends about 1 ⁄ 10 as much, and far less signal will be received. The same effect also makes UHF signals more difficult to receive around obstructions. VHF will quickly diffract around trees and poles and

5445-561: The first UHF originating station in Canada), Télé-Québec , French language programming outside Québec and ethnic/multilingual television services), has therefore become common. Third networks such as Quatre-Saisons or Global often will rely heavily on UHF stations as repeaters or as a local presence in large cities where VHF spectrum is largely already full. The original digital terrestrial television stations were all UHF broadcasts, although some digital broadcasts returned to VHF channels after

5544-411: The first and only pre-1950 UHF television station to operate on a regular daily schedule. Existing FCC rules at the time of the freeze had designated 42 UHF channels, designated 14–55, between 475–890 MHz. Ultimately, the question the FCC faced of how to allocate bandwidth for new television licenses would not take "months" to resolve, but several years. To newer entrants into TV broadcasting such as

5643-478: The first commercial UHF television station on the air was KPTV , Channel 27, in Portland, Oregon , on September 18, 1952. Early in 1953, 35% of televisions sold contained a UHF tuner compliant with 1952 rules, lending hope to the idea that intermixture of UHF and VHF stations might succeed. Several problems with early UHF tuners became evident. One was poor image frequency rejection in superheterodyne receivers with

5742-589: The fourth, Etv. In the UK, UHF television began in 1964 following a plan by the General Post Office to allocate sets of frequencies for 625-lined television to regions across the country, so as to accommodate four national networks with regional variations (the VHF allocations allowed for only two such networks using 405 lines ). The UK UHF channels would range from 21 to 68 (later extended to 69) and regional allocations were in general grouped close together to allow for

5841-471: The home of smaller broadcasters who were not willing to bid on the more coveted VHF allocations. These issues are greatly reduced with digital television, and today most over-the-air broadcasts take place on UHF, while VHF channels are being retired. To avoid giving the impression that channels were disappearing, digital broadcast systems have a virtual channel concept, allowing stations to display their original VHF channel number while actually broadcasting on

5940-539: The independent UHF station phenomenon; a fictional UHF station was also parodied in the 1980 film Pray TV . Some cities did develop successful independent UHF stations, many of these located in or near state capital cities, or served by nearby major rural regions. These included Montgomery , Alabama ; Frankfort , Kentucky ; Dover , Delaware ; Lincoln , Nebraska ; Topeka , Kansas ; Jefferson City , Missouri ; Lansing , Michigan ; Harrisburg , Pennsylvania ; Madison , Wisconsin ; and Springfield , Illinois . In

6039-400: The late 1950s and early 1960s) and the fall in television prices saw most households use a UHF set by the end of that decade. With the second and last VHF television service having launched in 1955, VHF TV was finally decommissioned for good in 1985 with no plans for it to return to use. The launch of Channel 5 in 1997 added a fifth national television network to UHF, requiring deviation from

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6138-554: The late 1990s, freeing up the frequency for other uses. UHF was not commonly used in the Klang Valley until 1994 (despite TV3's signal also being available over UHF Channel 29, as TV3 transmitted over VHF Channel 12 in the Klang Valley). 1994 saw the introduction of the channel MetroVision (which ceased transmission in 1999, got bought over by TV3's parent company – System Televisyen Malaysia Berhad – and relaunched as 8TV in 2004). This

6237-494: The license freeze enacted in 1949 to end. Through the entire three-and-a-half-year freeze period, KC2XAK remained the only UHF television station in regular operation. When the FCC television license freeze ended in 1952, a huge backlog of potential stations applied, many allocated to the UHF band as defined by the 1952 rules. The first commercially licensed UHF television station was WWLP in Springfield, Massachusetts ; however,

6336-464: The meantime, these shortcomings led to "UHF taboos", which in effect limited each metropolitan area to only moderately more UHF stations than VHF ones, despite the much higher number of channels. Television sets in the United States were not mandated to include UHF tuners until 1964. With UHF's reputation for reception problems, the fraction of new TV receivers that were factory-equipped with all-channel tuners dropped from 35% in early 1953 to 9% by 1958,

6435-538: The mid-1950s, owing to FCC spacing rules to avoid co-channel and adjacent channel interference between VHF TV stations in the same or nearby cities. Two VHF TV stations on the same channel needed to be 160 or more miles apart, and two VHF TV stations on adjacent channel frequencies needed to be 60 or more miles apart. UHF stations in major population centers of the United States were usually either educational network or independent TV stations. The movie UHF (starring "Weird Al" Yankovic and Michael Richards ) parodied

6534-530: The most common omnidirectional antenna is between 2.5 and 25 cm long. UHF wavelengths are short enough that efficient transmitting antennas are small enough to mount on handheld and mobile devices, so these frequencies are used for two-way land mobile radio systems , such as walkie-talkies , two-way radios in vehicles, and for portable wireless devices ; cordless phones and cell phones . Omnidirectional UHF antennas used on mobile devices are usually short whips , sleeve dipoles , rubber ducky antennas or

6633-497: The most sets in use benefitted most from VHF allocations. For example, New York City, Washington-Baltimore, Los Angeles, and San Francisco received seven VHF stations apiece, and Chicago was allocated five, with the other two of those channels going to Milwaukee, Wisconsin and Rockford, Illinois . FCC rules published on April 11, 1952, defined the final modern-day UHF allocation of 70 channels, 14 through 83, with 6 MHz separation. It used standard NTSC standards. This would allow

6732-458: The neighbouring region. Initial uptake of UHF television was very slow: Differing propagation characteristics between VHF and UHF meant new additional transmitters needed to be built, often at different locations to the then-established VHF sites, and in general with a larger number of relay stations to fill the greater number of gaps in coverage that came with the new band. This led to poor picture quality in bad coverage areas, and many years before

6831-489: The opening of World War II . These were used in experimental television receivers in the UK in the 1930s, and became widely used during the war as radar receivers. Surplus tubes flooded the market in the post-war era. At the same time, the development of color television was taking its first steps, initially based on incompatible transmission systems. The US FCC set aside a block of the then-unused and now-practical UHF frequencies for color television use. The introduction of

6930-399: The order of $ 400,000). For this reason, channels in the high-VHF region were kept for television use. The power of the stations on these channels was also reduced, to 160 kW, about one-third of the earlier limit. Stations making the transition generally acquired a second channel allocation in the upper UHF region to test their new equipment, and then moved into the low-UHF or high-VHF once

7029-403: The original frequency allocation plan of the early 1960s and the allocation of UHF frequencies previously not used for television (such as UK Channels 35 and 37, previously reserved for RF modulators in devices such as domestic videocassette recorders , requiring an expensive VCR re-tuning programme funded by the new network). A lack of capacity within the band to accommodate a fifth service with

7128-483: The planar inverted F antenna (PIFA) used in cellphones. Higher gain omnidirectional UHF antennas can be made of collinear arrays of dipoles and are used for mobile base stations and cellular base station antennas . The short wavelengths also allow high gain antennas to be conveniently small. High gain antennas for point-to-point communication links and UHF television reception are usually Yagi , log periodic , corner reflectors , or reflective array antennas . At

7227-527: The prefectures of Iwate , Miyagi , and Fukushima were switched off on 31 March 2012. UHF broadcasting was used outside Kuala Lumpur and the Klang Valley by private TV station TV3 in the late 1980s, with the government stations only transmitting in VHF (Bands 1 and 3) and the 450 MHz range being occupied by the ATUR cellular phone service operated by Telekom Malaysia . The ATUR service ceased operation in

7326-450: The received energy immediately downstream will be about 40% of the original signal. In comparison, UHF blockage by the same obstruction will result on the order of 10% being received. Another difference is the nature of the electrical and radio noise encountered on the two frequency bands. UHF bands are subject to constant levels of low-level noise that appear as "snow" on an analog screen. VHF more commonly sees impulse noise that produces

7425-428: The roof and walls, electrical wiring, and the frames of doors and windows. A metal-framed window will present almost no barrier to a UHF signal, while a VHF signal may be attenuated or strongly diffracted. For stations with strong signals, UHF antennas mounted beside the television are relatively useful, and medium-distance signals 25–50 kilometres (16–31 mi) away can often be picked up by attic mounted antennas. On

7524-513: The same gain . For instance, Channel 2 in the North American television frequencies is at 54 MHz, which corresponds to a wavelength of 5.5 m, and thus requires dipole antenna about 2.75 m across. In comparison, the lowest channel in the UHF band, Channel 14, is on 470 MHz, a wavelength of 64 cm, or a dipole length of only 32 cm. A powerful VHF antenna using the log-periodic design might be as long as 3 m, while

7623-425: The same geographic area with a UHF transmitter requires a higher effective radiated power , implying a more powerful transmitter or a more complex antenna. However, the additional channels allow more broadcasters in a given region without causing objectionable mutual interference. UHF broadcasting became possible due to the introduction of new high-frequency vacuum tubes developed by Philips immediately prior to

7722-402: The same service area. DTV offsets the latter to a great degree, with the current FCC power limitations at 1 MW for UHF, 1 ⁄ 5 the former limits. Nevertheless, moving from a 100 kW low-VHF analog signal to a 1 MW UHF signal is still a considerable change, which some broadcasters estimated could cost up to $ 4 million per station (although most estimates were much lower, on

7821-496: The service achieved full national coverage. In addition to this, the only exclusively UHF service, BBC2, would run for only a few hours a day and run alternative programming for minority audiences in contrast to the more populist schedules of BBC1 and ITV. However the 1970s saw a large increase in UHF TV viewing while VHF took a significant decline: The appeal of colour, which was never introduced to VHF (despite preliminary plans to do so in

7920-450: The signal to correct for these errors. This works well with the type of constant low-level interference found on UHF, which FEC can effectively eliminate. In comparison, VHF noise is largely unpredictable, consisting of periods of little noise followed by periods of almost complete signal loss. Forward error correction cannot easily address this situation. For this reason, DTV broadcasting was initially going to take place entirely on UHF. In

8019-492: The sixth and the last, DWDZ-TV (channel 47) of the Associated Broadcasting Company in 1999, but it was silent in 2003. UHF channels in Metro Manila were used as an alternative to cable television which offered free programing for households in the target markets and became popular in the 1990s. Similarly, pay services were also introduced in late 1992, when DWBC-TV on channel 68 began initial transmissions as

8118-414: The slot antenna or reflective array antenna are used: the slotted cylinder, zig-zag, and panel antennas. UHF television broadcasting channels are used for digital television , although much of the former bandwidth has been reallocated to land mobile radio system , trunked radio and mobile telephone use. Since at UHF frequencies transmitting antennas are small enough to install on portable devices,

8217-465: The standard intermediate frequency of 45.75 MHz. Another was very poor adjacent-channel rejection and channel selectivity by early tuner designs and manufactures. These problems were so significant that UHF-TV stations in the same geographic area were usually assigned a minimum of six channels apart from one another. Technical problems with the design of vacuum tubes for operation at high UHF frequencies were beginning to be addressed in 1954, but in

8316-516: The strength of UHF signals over long distances, and the attenuation increases with frequency. UHF TV signals are generally more degraded by moisture than lower bands, such as VHF TV signals. As the visual horizon sets the maximum range of UHF transmission to between 30 and 40 miles (48 to 64 km) or less, depending on local terrain, the same frequency channels can be reused by other users in neighboring geographic areas ( frequency reuse ). Radio repeaters are used to retransmit UHF signals when

8415-402: The time of the 1948 FCC freeze. With the knowledge that UHF channel allocation would be necessary to expand television coverage, and with the knowledge that by 1949 VHF television was an entrenched standard, the FCC proposed intermixture , licensing both VHF and UHF stations in a single city. Intermixture would rely on consumers rapidly adopting television sets with UHF tuning capability, and on

8514-517: The time, channels 14 to 83) have been required in television receivers by the All-Channel Receiver Act . However, because of their more limited range, and because few sets could receive them until older sets were replaced, UHF channels were less desirable to broadcasters than VHF channels (and licenses sold for lower prices). A complete list of US Television Frequency allocations can be found at Pan-American television frequencies . There

8613-399: The top end of the band, slot antennas and parabolic dishes become practical. For satellite communication, helical and turnstile antennas are used since satellites typically employ circular polarization which is not sensitive to the relative orientation of the transmitting and receiving antennas. For television broadcasting specialized vertical radiators that are mostly modifications of

8712-410: The upfront cost of the equipment needed to reach those power levels. The introduction of digital television (DTV) changed the relative outcome of these effects. DTV systems use a system known as forward error correction (FEC) which adds information to the signal to allow it to correct errors. This works well if the error rate is well known, in which case a fixed amount of extra information is added to

8811-411: The use of aerials designed to receive a specific sub-band with greater efficiency than wider-band aerials could. Aerial manufacturers would therefore divide the band into over-lapping groups; A (channels 21–34), B (39–53), C/D (48–68) and E (39–68). The first service to use UHF was BBC2 in 1964 followed by BBC1 and ITV (both already broadcast on VHF) in 1969 and Channel 4 / S4C in 1982. PAL colour

8910-527: The vacated capacity was used for additional digital television services and put into alternative use, such as mobile telecommunications or internet services. Bandwidth for television in the United States was allocated by the Federal Communications Commission (FCC) in 1937, solely in the VHF (Very High Frequency) band, across 18 channels. American television broadcasting began experimentally in

9009-514: The war brought rapid expansion in the nascent broadcast television industry. Thirteen VHF channels was found to be insufficient to support the desired expansion of broadcast television across the United States. Interference and channel crowding in densely populated areas (such as the eastern mid-Atlantic states) was a particular problem. This bandwidth crunch was made even worse by the need to re-allocate VHF Channel 1 to land-mobile radio systems in 1948 due to radio-interference problems. To illustrate

9108-474: Was converted entirely to digital UHF starting in December 2003, with all analogue television signals (both VHF and UHF) being terminated between 2010 and 2012. The analogue translators in northeastern Ishikawa Prefecture were shut down as part of a technical trial on 24 July 2010; analogue signals in the rest of that prefecture and 43 other prefectures were terminated on 24 July 2011. The analogue transmitters in

9207-426: Was flagging. While the more-established broadcasters were operating profitably on VHF channels as affiliates of the two largest TV networks (at the time, NBC and CBS), most of the original UHF local stations of the 1950s soon went bankrupt, limited by the range their signals could travel, the lack of UHF tuners in most TV sets and the paucity of advertisers willing to spend money on them. UHF stations fell quickly behind

9306-565: Was followed by Ntv7 in 1998 (also acquired by TV3's parent company in 2005) and recently Channel 9 (which started in 2003, ceased transmission in 2005, was also acquired by TV3's parent company shortly after, and came back as TV9 in early 2006). At current count, there are 6 distinct UHF signals receivable by an analog TV set in the Klang Valley: Channel 27 (8TV), Channel 29 (TV3 UHF transmission), Channel 37 (NTV7), Channel 42 (TV9), Channel 55 (TV Alhijrah) and Channel 39 (WBC). Channel 35

9405-416: Was impractical and uneconomic to require these well-established VHF users to move to other frequencies, such as the 300 MHz – 3 GHz UHF band. All of this made expansion of broadcast television channels into the UHF band inevitable, though the technology and broadcasting characteristics of UHF was at this time largely unproven. Even the television standard to use to broadcast on UHF was in question at

9504-403: Was introduced on UHF only in 1967 (for BBC2) and 1969 (for BBC1 & ITV). As a consequence of achieving maximum national coverage, signals from one region would typically over-lap with that of another, which was accommodated for by allocating a different set of channels in each adjacent area, often resulting in greater choice for viewers when a network in one region aired different programmes to

9603-553: Was necessary for this purpose, and the scope was broadened. In addition to soliciting and administering unrestricted funds, the foundation also administers donor-designated funds supporting particular educational, humanitarian, historical preservation, and peer recognition programs of the IEEE. As of the end of 2014, the foundation's total assets were nearly $ 45 million, split equally between unrestricted and donor-designated funds. In May 2019, IEEE restricted Huawei employees from peer reviewing papers or handling papers as editors due to

9702-1199: Was removed from TV broadcasting, making it available for other uses. Channel 55, for instance, was sold to Qualcomm for their MediaFLO service, which was later sold to AT&T, and discontinued in 2011. Some US broadcasters had been offered incentives to vacate this channel early, permitting its immediate mobile use. The FCC 's scheduled auction for this newly available spectrum was completed in March 2008. ELF 3 Hz/100 Mm 30 Hz/10 Mm SLF 30 Hz/10 Mm 300 Hz/1 Mm ULF 300 Hz/1 Mm 3 kHz/100 km VLF 3 kHz/100 km 30 kHz/10 km LF 30 kHz/10 km 300 kHz/1 km MF 300 kHz/1 km 3 MHz/100 m HF 3 MHz/100 m 30 MHz/10 m VHF 30 MHz/10 m 300 MHz/1 m UHF 300 MHz/1 m 3 GHz/100 mm SHF 3 GHz/100 mm 30 GHz/10 mm EHF 30 GHz/10 mm 300 GHz/1 mm THF 300 GHz/1 mm 3 THz/0.1 mm Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers ( IEEE )

9801-513: Was to ultimately become WNET 13 Newark ). Similarly, Delaware also had only one VHF station. Meanwhile, UHF broadcasting until 1949 was designated as experimental. In the fall of 1944, the Columbia Broadcasting System proposed a high-definition black and white system on the UHF band employing 750–1,000 scanning lines that offered the possibility of higher-definition monochrome and color broadcasting, both then were precluded from

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