80 Meter Band
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The 80-meter or 3.5 MHz band is a band of radio
frequencies Frequency is the number of occurrences of a repeating event per unit of time. It is also occasionally referred to as ''temporal frequency'' for clarity, and is distinct from ''angular frequency''. Frequency is measured in hertz (Hz) which is eq ...
allocated for
amateur radio Amateur radio, also known as ham radio, is the use of the radio frequency spectrum for purposes of non-commercial exchange of messages, wireless experimentation, self-training, private recreation, radiosport, contesting, and emergency communic ...
use, from 3.5 to 4.0 
MHz The hertz (symbol: Hz) is the unit of frequency in the International System of Units (SI), equivalent to one event (or cycle) per second. The hertz is an SI derived unit whose expression in terms of SI base units is s−1, meaning that one he ...
in IARU Region 2 (consisting mostly of North and South America), and generally 3.5 to 3.8 or 3.9 MHz in Regions 1 and 3 (the rest of the world) respectively. The upper portion of the band, which is usually used for phone (voice), is sometimes referred to as 75 meters. In Europe, 75m is a shortwave broadcast band, with a number of national radio services operating between 3.9 and 4.0 MHz. Because of high
D layer The ionosphere () is the ionized part of the upper atmosphere of Earth, from about to above sea level, a region that includes the thermosphere and parts of the mesosphere and exosphere. The ionosphere is ionized by solar radiation. It plays an im ...
absorption that persists until sunset, 80 meters is usually only good for local communications during the day, and hardly ever good for communications over intercontinental distances during the day. But it is the most popular band for regional
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from the late afternoon through the night time hours. At night, "80" is usually reliable for short to medium distance contacts, with average distances ranging from local contacts within 200 miles/300 km out to a distance of 1,000 miles/1,600 km or more – even worldwide – at night, depending on atmospheric and ionospheric conditions.


Summary

The 80-meter band is favoured for ragchews between amateurs within a range of 500 miles/800 km. During contests the band is filled with activity beginning before sunset and continuing all through the night. The 80 meter band begins at 3.5 MHz and goes up to 4.0 MHz. The upper part of the band, mostly used for voice, is often referred to as 75 meters, since the wavelength is between 80 and 75 meters. Antennas at this frequency are large: A quarter-wave vertical, for example, is approximately 65 feet (20 meters) high. Erecting the large antennas and ensuring the antennas radiate significant power at low angles are two of the challenges facing amateurs wishing to communicate over long distances. Amateurs interested in regional communication can use low wire antennas, such as horizontal
dipoles In physics, a dipole () is an electromagnetic phenomenon which occurs in two ways: *An electric dipole deals with the separation of the positive and negative electric charges found in any electromagnetic system. A simple example of this system ...
, inverted vee dipole antennas or
loop antenna A loop antenna is a radio antenna consisting of a loop or coil of wire, tubing, or other electrical conductor, that is usually fed by a balanced source or feeding a balanced load. Within this physical description there are two (possibly three) di ...
s on this band. Horizontally polarized antennas closer than a quarter-wave to earth produce predominantly high-angle radiation, which is useful for short distance propagation modes, such as near vertical incidence skywave. None the less, with occasionally favorable propagation conditions substantial distances can still be covered with modest height antennas. 80 meters can be plagued with noise, with the rural noise floor set by propagated noise from distant
thunderstorm A thunderstorm, also known as an electrical storm or a lightning storm, is a storm characterized by the presence of lightning and its acoustic effect on the Earth's atmosphere, known as thunder. Relatively weak thunderstorms are someti ...
s and man-made noise sources. Urban and suburban noise floor is often established by local noise, and is generally 10–20 dB stronger than the typical rural noise floor. On 80 meters, nearly all areas of the world are subject to local weather induced noises from thunderstorms. The ionosphere's D-layer also affects 80 meters significantly by absorbing signals. During the daylight hours, a station in middle or high latitudes using 100 watts and a simple dipole antenna can expect a maximum communication range of 200 miles (300 km), extending to a few thousand miles or more at night. Global coverage can be routinely achieved during the late fall and winter by a station using modest power and common antennas. The higher background noise on 80 meters, especially when combined with higher ionospheric absorption, causes stations with higher effective radiated power to have a decided advantage in long distance communications. With very high antennas or large vertically polarized arrays and full legal power, reliable worldwide communications occurs over nighttime paths. Mobile operation is possible, although the relatively short length of practical mobile antennas – usually less than 10 feet (3 meters) – compared to a quarter-wave antenna results in the need for significant inductive loading to achieve resonance. Since short antennas have very low radiation resistance, their efficiency is typically below 10%. Additionally, the large inductance of the loading coil creates an antenna system with an extremely narrow bandwidth (high Q).


History

The 80-meter band was made available to amateurs in the United States by the Third National Radio Conference on October 10, 1924."Frequency or wave band allocations"
''Recommendations for Regulation of Radio Adopted by the Third National Radio Conference'' (October 6-10, 1924), page 15. The band was allocated on a worldwide basis by th
International Radiotelegraph Conference
in Washington, D.C., on October 4, 1927.


Propagation

As the maximum usable frequency for long distance communication seldom dips below 3.5 MHz anywhere on the planet, the main propagation barrier to long distance communication is heavy D-layer absorption during the daytime, ensuring that DX paths must be largely, although not entirely, in darkness. At times, there is pronounced dark-side gray-line propagation, which is most useful on polar routes, away from equatorial thunderstorm activity. At higher latitudes, a noticeable
skip zone Skip or Skips may refer to: Acronyms * SKIP (Skeletal muscle and kidney enriched inositol phosphatase), a human gene * Simple Key-Management for Internet Protocol * SKIP of New York (Sick Kids need Involved People), a non-profit agency aidin ...
sometimes appears on the band during nighttime hours in midwinter, which can be as much as 300 miles/500 km, rendering communication with closer stations impossible. This is not generally a problem at middle or equatorial latitudes, or for large parts of the year anywhere, but it does occasionally limit local wintertime traffic on the band in areas such as
Northern Europe The northern region of Europe has several definitions. A restrictive definition may describe Northern Europe as being roughly north of the southern coast of the Baltic Sea, which is about 54th parallel north, 54°N, or may be based on other g ...
, the northern tier of the United States and Canada. During spring and summer (year-round in the tropics), lightning from distant storms creates significantly higher background noise levels, often becoming an insurmountable obstacle to maintaining normal communications. Nearby convective weather activity during the summer months can make the band completely unusable, even for local communications. In the winter months during the peak years of the
sunspot cycle The solar cycle, also known as the solar magnetic activity cycle, sunspot cycle, or Schwabe cycle, is a nearly periodic 11-year change in the Sun's activity measured in terms of variations in the number of observed sunspots on the Sun's surfac ...
, auroral effects can also render the band useless for hours at a time.


Frequency allocation

The
International Telecommunication Union The International Telecommunication Union is a specialized agency of the United Nations responsible for many matters related to information and communication technologies. It was established on 17 May 1865 as the International Telegraph Unio ...
allocated the whole 500 kHz from 3.5 to 4 MHz to amateurs in the Americas, and 3.5 to 3.8 or 3.9 MHz to amateurs in other parts of the world. However, amateurs outside the Americas must share this useful piece of spectrum with other users, usually on a joint primary basis. As a result, authorities in the affected parts of the world restrict amateur allocations between 3.7 MHz and the top of the band. Some allocations are as follows (in MHz): * Argentina 3.500–3.750, 3.790–3.800 * Australia 3.500–3.700, 3.776–3.800 (Latter is a DX window for advanced licensees only) * Canada 3.500–4.000 * Europe 3.500–3.800 * India 3.500–3.700, 3.890–3.900 * Korea 3.500–3.550, 3.790–3.800, (Digital: 3.520 ~ 3.525 MHz) * Japa

3.500–3.575, 3.599–3.612, 3.680–3.687, 3.702–3.716, 3.745–3.770, 3.791–3.805, * New Zealand 3.500–3.900 * Russia 3.500–3.800 * United States 3.500–4.000


Lower band edge

The lower edge of 80 meters is predominated by CW emissions, with the lower 10 kHz (3.5–3.51 MHz) primarily used for long distance communications. It is common for illegal marine operations, generally using USB voice, to occupy frequencies on the low end of 80 meters. Most operations of this type are from fishing vessels. Most come from SE Asia and South American ports, although some illegal use occurs with vessels from USA and Canadian ports.


Upper band edge

For Canadian and U.S Amateurs with perfect transmitters, the highest usable frequency in the 80 m band for single-sideband modulation, lower side band phone is 3.999 MHz. Depending on quality and condition of radio, audio characteristics, and proper adjustments the bulk of emissions on lower sideband will typically occupy 3.9970–3.9997 MHz. All SSB transceivers have third- and fifth-order products of significant level, typically only 30–35 dB below PEP for third order intermodulation. This means any operation above 3.998 MHz LSB comes with some risk of illegal emissions, even with good equipment. It is a common misconception that using this carrier frequency is not legal as emissions extend beyond the 4 MHz band edge. High quality communications receivers or selective level meters generally have better dynamic range than all but the best spectrum analyzers. Properly used, they do an excellent job of indicating out-of-band emissions. While some people reporting out-of-band operation might use a wide receiver bandwidth, receiver bandwidth adds to transmitter bandwidth, so the perception is bandwidth is wider than it truly is. Any measurement of out-of-band emissions should be made using a receiver bandwidth significantly narrower than the transmitter bandwidth. Inexpensive spectrum analyzers,
spectrum scope The radio spectrum scope (also radio panoramic receiver, panoramic adapter, pan receiver, pan adapter, panadapter, panoramic radio spectroscope, panoramoscope, panalyzor and band scope) was invented by Marcel Wallace - and measures and shows the ...
s, or panadaptors are generally not useful for off-air measurements of bandwidth. Wide detection bandwidth, slow sweep rates, and commonly high local ambient noise levels generally mask weaker emissions. Using other phone modes such as upper side band, amplitude or frequency modulation with 3.999 MHz as the carrier frequency would modulate across the band edge and are not considered legal. Certain data modes and CW are usable as long as the emission bandwidth does not extend across the band edge.


Broadcast interference

The European 75 m broadcast band overlaps the North American 80 m ham band allocation. When it is night on both ends of the transmission path some broadcasters in Asia and Europe can be heard in North America between 3.9 and 4.0 MHz. On an SSB receiver this produces a tone in the received audio when the station is broadcasting with conventional amplitude modulation or white noise if the station is using
Digital Radio Mondiale Digital Radio Mondiale (DRM; ''mondiale'' being Italian and French for "worldwide") is a set of digital audio broadcasting technologies designed to work over the bands currently used for analogue radio broadcasting including AM broadcasting—pa ...
modulation. Setting the receiver to the exact frequency of the AM carrier can eliminate the tone but an audio program may still be heard. If the DRM signal is strong enough the noise may mask weak amateur signals. Most DRM signals occupy 9 or 10 kHz of bandwidth.


See also

*
Shortwave bands Shortwave bands are frequency allocations for use within the shortwave radio spectrum (the upper medium frequency Fband and all of the high frequency Fband). Radio waves in these frequency ranges can be used for very long distance (transcontinent ...


References

* * * * * * * {{DEFAULTSORT:80-Meter Band Amateur radio bands