Mediumwave
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Mediumwave (MW) radio, also called Medium frequency (MF), is a common band for broadcasting. The standard AM broadcast band is 530 kHz to 1710 kHz in North America, but remains only up to 1610 kHz elsewhere.
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[edit] Mediumwave Propagation Characteristics
Mediumwave signals have the property of following the curvature of the earth (the groundwave) at all times, and also reflecting off the ionosphere at night (skywave). This makes this frequency band ideal for both local and continent-wide service, depending on the time of day. For example, during the day a radio receiver in the state of Maryland is able to receive reliable but weak signals from high-power stations WFAN, 660 kHz, and WOR, 710 kHz, 400 km (248.2 Mi) away in New York City, due to groundwave propagation. The effectiveness of groundwave signals largely depends on ground conductivity—higher conductivity results in better propagation. At night, the same receiver picks up signals as far away as Mexico City and Chicago reliably.
[edit] Mediumwave in the Americas
In most of the Americas, mediumwave stations are separated by 10 kHz and have two sidebands of ±5 kHz. In the rest of the world, the separation is 9 kHz, with sidebands of ±4.5 kHz. Both provide adequate audio quality for voice, but are insufficient for high-fidelity broadcasting, which is common on the VHF FM bands. In the US the maximum transmitter power is restricted to 50 kilowatts, while in Europe there are medium wave stations with transmitter power up to 2.5 megawatts.
Many North American stations are required to shut down or reduce power at night in order to make way for clear channel stations that can then be received over a wider range.
[edit] Mediumwave in Europe
In Europe, each country is allocated a number of frequencies on which high power (up to 2.5 MW) can be used; the maximum power is also subject to international agreement. In most cases there are two power limits: a lower one for omnidirectional and a higher one with directional radiation with minimums showing toward certain directions. The power limit can also be depending on daytime and it is possible, that a station may not work at nighttime, because it would produce than too much interference. Other countries may only operate low-powered transmitters on the same frequency, again subject to agreement. For example, Russia operates a high-powered transmitter, located in its Kaliningrad exclave and used for external broadcasting, on 1386 kHz. The same frequency is also used by low-powered local radio stations in the United Kingdom; other parts of the United Kingdom can still receive the Russian broadcast. International mediumwave broadcasting in Europe has decreased markedly with the end of the Cold War and the increased availability of satellite and Internet TV and radio, although the cross-border reception of neighboring countries' broadcasts by expatriates and other interested listeners still takes place.
Due to the high demand for frequencies in Europe, many countries operate single frequency networks; in Britain, BBC Radio Five Live broadcasts from various transmitters on either 693 or 909 kHz. These transmitters are carefully synchronized to minimize interference from more distant transmitters on the same frequency.
[edit] Stereo and Digital Radio Transmissions on Mediumwave
Stereo transmission is possible and offered by some stations in the U.S., Canada, Australia, South Africa, and France. However, there are multiple standards for AM stereo with C-QUAM being the legally-permitted one in the United States, and receivers that implement the technologies are relatively rare but not uncommon. Another well-known system, which is no longer used, is Kahn Powerside.
In September 2002, the United States Federal Communications Commission approved the proprietary iBiquity in-band on-channel (IBOC) HD Radio system of digital audio broadcasting, which is meant to improve the audio quality of signals. The Digital Radio Mondiale (DRM) IBOC system has been approved by the ITU for use outside North America and U.S. territories.
[edit] Antennas
As aerials mostly mast radiators are used. Stations broadcasting with low power commonly use masts with heights of a quarter wavelength, while high power stations mostly use half wavelength. The usage of masts longer than 5/8 of radiated wavelength gives a bad radiation pattern. Usually mast antennas are insulated against ground and show a high voltage against ground during transmission, which complicates maintenance, installation of air safety warning lights or using the mast as a tower for UHF/VHF-radio, but there are several ways to use grounded masts or towers.
If grounded masts or towers are required, then cage aerials or longwire aerials are used. Another possibility consists of feeding the mast or the tower by cables running from the tuning unit to the guys or crossbars in a certain height. Directional aerials consist of multiple masts, which need not to be from the same height. It is also possible to realize directional aerials for mediumwave with cage aerials where some parts of the cage are fed with a certain phase difference.
Other type of aerials sometimes used for mediumwave are T- and L-aerials. The kind used depends on the need for grounded or insulated towers.
In some cases dipole aerials are used, which are spun between two masts or towers. Such aerials radiate toward the sky. The mediumwave transmitter at Berlin-Britz for transmitting RIAS used a cross dipole mounted on five 30.5 meter high guyed masts to transmit the skywave up to the ionosphere at nighttime.
Europe's largest antenna park DX 183 is placed in Northern Jutland, Denmark. The well-known German DX'er Wilhelm Herbst has constructed and built the antennas. DXers are welcome to use the facilities.
[edit] Non-broadcast use
For most of the 20th century, the radio frequency 500 kHz was reserved world wide as the Morse code international calling and distress frequency for ships on the high seas. The frequency 2182 kHz is still used for this purpose, but employing voice transmission.
Other services that operate in medium wave include Navtex and the amateur radio 160-meter band. The obsolete LORAN-A system used medium wave.
[edit] See also
- AM radio
- Longwave
- MW DX
- Shortwave
- FM radio
- Satellite radio
- List of European medium wave transmitters
- Wave plan of Geneva
[edit] External links
- Tomislav Stimac, "Definition of frequency bands (VLF, ELF... etc.)". IK1QFK Home Page (vlf.it).
- The Medium Wave Circle - The premier club for MW/LW enthusiasts
- Medium Wave News - Published regularly since 1954
- "Building the Broadcast Band" the development of the 520-1700 kHz MW (AM) band
- SWDXER ¨The SWDXER¨ - with general SWL information and radio antenna tips.
- Introduction to Long Distance Medium Wave Listening - updated March 2006
- DXing.info - News, audio files, reports on mediumwave stations
- Medium Wave
- M3 Map of Effective Ground Conductivity in the USA
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ELF | SLF | ULF | VLF | LF | MF | HF | VHF | UHF | SHF | EHF |
3 Hz | 30 Hz | 300 Hz | 3 kHz | 30 kHz | 300 kHz | 3 MHz | 30 MHz | 300 MHz | 3 GHz | 30 GHz |
30 Hz | 300 Hz | 3 kHz | 30 kHz | 300 kHz | 3 MHz | 30 MHz | 300 MHz | 3 GHz | 30 GHz | 300 GHz |