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In radio, longwave, long wave or long-wave, and commonly abbreviated LW, refers to parts of the radio spectrum with wavelengths longer than what was originally called the medium-wave broadcasting band. The term is historic, dating from the early 20th century, when the radio spectrum was considered to consist of longwave (LW), medium-wave (MW), and short-wave (SW) radio bands. Most modern radio systems and devices use wavelengths which would then have been considered 'ultra-short'.

In contemporary usage, the term longwave is not defined precisely, and its intended meaning varies. It may be used for radio wavelengths longer than 1,000 m i.e. frequencies up to 300 kilohertz (kHz), including the International Telecommunications Union's (ITU's) low frequency (LF, 30-300 kHz) and very low frequency (VLF, 3-30 kHz) bands. Sometimes the upper limit is taken to be higher than 300 kHz, but not above the start of the medium wave broadcast band at 525 kHz.

In Europe, Africa, and large parts of Asia (International Telecommunication Union Region 1), where a range of frequencies between 148.5 and 283.5 kHz is used for AM broadcasting in addition to the medium-wave band, the term longwave usually refers specifically to this broadcasting band, which falls wholly within the low frequency band of the radio spectrum (30-300 kHz). The "Longwave Club of America" (United States) is interested in "frequencies below the AM broadcast band" (i.e., all frequencies below 525 kHz).


Video Longwave



Propagation

Because of their long wavelength, radio waves in this frequency range can diffract over obstacles like mountain ranges and travel beyond the horizon, following the contour of the Earth. This mode of propagation, called ground wave, is the main mode in the longwave band. The attenuation of signal strength with distance by absorption in the ground is lower than at higher frequencies, and falls with frequency. Low frequency ground waves can be received up to 2,000 kilometres (1,200 mi) from the transmitting antenna.

Low frequency waves can also occasionally travel long distances by reflecting from the ionosphere (the actual mechanism is one of refraction), although this method, called skywave or "skip" propagation, is not as common as at higher frequencies. Reflection occurs at the ionospheric E layer or F layers. Skywave signals can be detected at distances exceeding 300 kilometres (190 mi) from the transmitting antenna.


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Non-broadcast use

Non-directional beacons

Non-directional beacons transmit continuously for the benefit of radio direction finders in marine and aeronautical navigation. They identify themselves by a callsign in Morse code. They can occupy any frequency in the range 190-1750 kHz. In North America, they occupy 190-535 kHz. In ITU Region 1 the lower limit is 280 kHz.

Time signals

There are institutional broadcast stations in the range that transmit coded time signals to radio clocks. For example:

  • WWVB in Colorado, United States, on 60 kHz
  • DCF77 in Frankfurt am Main, Germany, on 77.5 kHz
  • JJY in Japan, on 40 & 60 kHz
  • 66.66 kHz in Taldom transmitter, Russia
  • BPC in Lintong, China, 68.5 kHz
  • MSF time and 60 kHz frequency standard transmitted from Anthorn in the UK.
  • TDF from Allouis, France, on 162 kHz

Radio-controlled clocks receive their time calibration signals with built-in long-wave receivers. They use long-wave, rather than short-wave or medium-wave, because long-wave signals from the transmitter to the receiver always travel along the same direct path across the surface of the Earth, so the time delay correction for the signal travel time from the transmitting station to the receiver is always the same for any one receiving location.

Longwaves travel by groundwaves that hug the surface of the earth, unlike mediumwaves and shortwaves. Those higher-frequency signals do not follow the surface of the Earth beyond a few kilometers, but can travel as skywaves, 'bouncing' off different layers of the ionosphere at different times of day. These different propagation paths can make the time lag different for every signal received. The delay between when the long-wave signal was sent from the transmitter (when the coded time was correct) and when the signal is received by the clock (when the coded time is slightly late) depends on the overland distance between the clock and the transmitter and the speed of light through the air, which is also very nearly constant. Since the time lag is essentially the same, a single constant shift forward from the time coded in the signal can compensate for all long-wave signals received at any one location from the same time signal station.

Submarine communication

The militaries of the United Kingdom, Russian Federation, United States, Germany, and Sweden use frequencies below 50 kHz to communicate with submerged submarines.

LowFER

In North America during the 1970s, the frequencies 167, 179 and 191 kHz were assigned to the short-lived Public Emergency Radio of the United States. Nowadays, in the United States, Part 15 of FCC regulations allow unlicensed use of 136 kHz and the 160-190 kHz band at output power up to 1 watt with up to a 15-meter antenna. This is called Low Frequency Experimental Radio (LowFER). The 190-435 kHz band is used for navigational beacons.

Historic

Swedish station SAQ, located at the Varberg Radio Station facility in Grimeton, is the last remaining operational Alexanderson alternator long-wave transmitter. Although the station ended regular service in 1996, it has been maintained as a World Heritage Site, and makes at least two demonstration transmissions yearly, on 17.2 kHz.


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Broadcasting

Longwave is used for broadcasting only within ITU Region 1. The long-wave broadcasters are located in western, northern, central, and southeastern Europe, the former Soviet Union, Mongolia, Algeria, and Morocco.

Typically, a larger geographic area can be covered by a long-wave broadcast transmitter compared to a medium-wave one. This is because ground-wave propagation suffers less attenuation due to limited ground conductivity at lower frequencies.

Carrier frequencies

Long-wave carrier frequencies are exact multiples of 9 kHz; ranging from 153 to 279 kHz, except for a French-language station, Europe #1 in Germany. This station did keep to correctly spaced channels spacing for 4 months--only 7 years ago, and all Mongolian transmitters are 2 kHz above the internationally recognized channels.

Until the 1970s, some long-wave stations in northern and eastern Europe and the Soviet Union operated on frequencies as high as 433 kHz.

Some radio broadcasters, for instance Droitwich transmitting station in the UK, derive their carrier frequencies from an atomic clock, allowing their use as frequency standards. Droitwich also broadcasts a low bit-rate data channel, using narrow-shift phase-shift keying of the carrier, for Radio Teleswitch Services.

In 2014 and 2015 Russia closed all of its LW broadcast transmitters.

Long-distance reception

Because long-wave signals can travel very long distances, some radio amateurs and shortwave listeners engage in an activity called DXing. DXers attempt to listen in to far away transmissions, and they will often send a reception report to the sending station to let them know where they were heard. After receiving a report, the sending station may mail the listener a QSL card to acknowledge this reception.

Reception of long-wave signals at distances in excess of 17,000 kilometres (11,000 mi) have been verified.

List of long-wave broadcasting transmitters

List of stations currently operating

List of stations that have closed or are otherwise inactive


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See also

  • Low frequency: for other uses (military, commercial and amateur) of this part of the radio spectrum (30-300 kHz)
  • Electromagnetic spectrum: Very low frequency, Shortwave, Ground wave, Skywave, Medium wave
  • Radio broadcasting: AM broadcasting, BBC Radio 4, BBC Light Programme, Radio clock, Office de Radiodiffusion-Télévision Française, Warsaw radio mast, Digital Radio Mondiale, International broadcasting,
  • Shipping: Global navigation satellite system, Navigation, Shipping Forecast
  • Lists: Index of wave articles
  • Other: 1 kilometre, National Institute of Standards and Technology, Fail-safe, WGU-20

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Notes and references


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External links

  • Tomislav Stimac, "Definition of frequency bands (VLF, ELF... etc.)". IK1QFK Home Page.
  • The Medium Wave Circle - The premier club for MW/LW enthusiasts
  • Medium Wave News - Published regularly since 1954
  • Euro-African Medium Wave Guide
  • Longwave Club of America
  • How to receive DRM from Kalundborg longwave station
  • Reception of long wave and very long wave with ferrite antennas 5-50 kHz
  • Klawitter, G.; Oexner, M.; Herold, K. (2000). "8.2 Langwellenrundfunk". Langwelle und Längstwelle (in German). Meckenheim: Siebel Verlag GmbH. pp. 116-131. ISBN 3-89632-043-2. 
  • Busch, Heinrich (2001-11-14). "Luftschiff Graf Zeppelin LZ127".  (German)
  • European and Asian Longwave Stations - Medium Wave Radio
  • List of long- and mediumwave transmitters with GoogleMap-Links to transmission sites

Source of the article : Wikipedia

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