Anthorn Radio Station

Last updated

Anthorn
Anthorn array.jpg
Cumbria UK location map.svg
Red pog.svg
Anthorn Radio Station (Cumbria)
Location Anthorn, Cumbria
Mast height227 metres (745 ft)
Coordinates 54°54′40″N3°16′48″W / 54.911°N 3.280°W / 54.911; -3.280
Grid reference NY179581
Anthorn

HMS Nuthatch
Summary
Built1943–1944
In use1944–1958
Runways
Direction LengthSurface
ftm
03/213,6001,100Tarmac
09/274,2001,280Tarmac
3,6001,100Tarmac
The Military Airfields of Britain: Northern England [1]

Anthorn Radio Station is a naval and government radio transmitting station located near Anthorn, Cumbria, England, overlooking the Solway Firth, and is operated by Babcock International (with whom former operators VT Communications are now merged). It has three transmitters: one VLF; one LF; and an eLORAN transmitter.

Contents

It is on the site of the World War II military airfield which was operated by the Fleet Air Arm as HMS Nuthatch.

RNAS Anthorn

Former RNAS Anthorn, and Anthorn radio station from the air Cardurnock and the Solway - geograph.org.uk - 1703861.jpg
Former RNAS Anthorn, and Anthorn radio station from the air

John Laing & Son began building an airfield at Anthorn for the Fleet Air Arm in late 1943, [2] and Royal Naval Air Station, Anthorn, was commissioned as HMS Nuthatch on 7 September 1944, with three tarmacadam runways. It was the base of No. 1 Aircraft Receipt and Despatch Unit (No. 1 ARDU), which had the job of receiving aircraft fresh from manufacturers, modifying them to Service standards and despatching them to operational squadrons, with the unit specialising in the Vought F4U Corsair, Supermarine Seafire, Fairey Barracuda and Fairey Firefly types. No. 1 ARDU continued to operate from Anthorn following the end of the Second World War, while a number of Fleet Air Arm Squadrons were also based at the airfield in the immediate post war years. The airbase shut down in March 1958. The present road to Cardurnock runs partially along the airfield perimeter track. [1] Several firing butts, for synchronising aircraft machine guns, can still be seen on the seaward side of the road.

Operational units [1]
UnitEquipmentFromToNotes
No. 1 ARDU-7 September 1944November 1957
772 Naval Air Squadron Various3 May 194626 June 1947
802 Naval Air Squadron de Havilland Sea Hornet May 1948October 1948
813 Naval Air Squadron Blackburn Firebrand 21 May 194823 October 1948
801 Naval Air Squadron Hawker Sea Fury 6 October 194931 October 1949
812 Naval Air Squadron Fairey Firefly 4 June 19523 July 1952
807 Naval Air Squadron Hawker Sea Hawk 14 January 19545 May 1954
860 Squadron Netherlands Naval Aviation Service Hawker Sea Hawk1956 [3]
824 Naval Air Squadron

VLF transmitter

Central mast of the VLF umbrella antenna, showing insulator strings attaching the six toploads to it VLF umbrella antenna - Anthorn Radio Station UK - central mast.jpg
Central mast of the VLF umbrella antenna, showing insulator strings attaching the six toploads to it
Bottom feeders are used on the main umbrella antenna, as the central lattice mast is not insulated from ground. Main antenna feed Anthorn.jpg
Bottom feeders are used on the main umbrella antenna, as the central lattice mast is not insulated from ground.

The VLF transmitter is used primarily for transmitting orders to submarines and transmits on 19.6 kHz with an output power of 550 kilowatts. [4] Its callsign is GQD. [5] VLF transmissions are relatively unaffected by atmospheric nuclear explosions and Anthorn was once part of the link between Fylingdales early warning radar, North Yorkshire, and the United States' air defence system. [6]

A large part of the site is taken up by the VLF transmitter's large trideco wire umbrella antenna. [4] This consists of a 748 feet (228 m) central mast with 6 vertical wire radiators suspended from its top fed at the base of the mast, attached to 6 rhombic-shaped 2148 ft long horizontal multiwire toploads which radiate from the central mast at angles of 60°, supported by 12 surrounding masts, giving the antenna the shape of a 6-pointed star when seen from above. [4] The cables supporting the endpoints of the wire antenna carry a load of 31 tons and are attached to computer controlled winches which automatically adjust the tension. The high voltage of several hundred kilovolts on the topload wires during transmission requires long strings of insulators where the wires are attached to the towers.

It is a NATO facility, controlled from Northwood Headquarters along with three other VLF transmitters in Norway, Germany and Italy. [7] In accordance with the procedure for NATO projects, the project was the subject of a competition among the organisation's member countries. The British Post Office, acting as technical adviser and agent of the Ministry of Defence, chose the site, negotiated the contract and supervised the work, with the assistance of the Ministry of Public Building and Works. The contract was placed on 26 October 1961 with Continental Electronics Systems Incorporated of Dallas, Texas. This firm had already built a similar but much larger station in Maine, USA. Work began in 1962 and the station was accepted on behalf of the MoD in November 1964. [8]

Originally, the station was designed to radiate a single telegraph channel at up to 45.5 baud and at powers ranging from 50 kW at 16 kHz to 100 kW at 20 kHz. The carrier frequency was to be stable to one part in 108 over a month. Subsequently, the data rate was increased to 50 baud and the carrier stability improved. [8]

LF transmitter: National Physical Laboratory time signal

The National Physical Laboratory (NPL) has installed three atomic clocks at Anthorn, and on 27 February 2007 Britain’s national time signal transmissions, retaining their original call sign of MSF, were transferred there on a trial basis, moving formally on 1 April 2007. The signals were previously transmitted from a transmitter at Rugby, administered by BT. The data transmitted includes time and date information which can be decoded using readily available software, and the signals are transmitted at an accurate frequency of 60 kHz to provide a national frequency standard. The transmitting aerial uses an auxiliary mast adjacent to the VLF array.

Monitoring and logging of the clocks and control of the transmissions is by Internet link from the NPL offices at Teddington, using comparison with GPS signals at both locations. Signal monitoring is by radio. To ensure accuracy, dynamic adjustment of the aerial according to local conditions (such as wind distortion) is controlled from computers on site. The effective radiated power is 17 kW. [9]

LORAN

The general lighthouse authorities for Britain and Ireland have contracted VT Communications to develop eLORAN (enhanced LORAN) radio navigational aid for mariners. The transmitter is at Anthorn. The transmitting aerial uses an auxiliary mast adjacent to the VLF array. [10] Due to the closure of the eLORAN service in Germany and Norway the eLORAN service was discontinued on 31 December 2015. [11] However, the eLoran timing signal is still active to allow for research and support purposes. [12]

See also

Related Research Articles

<span class="mw-page-title-main">Medium wave</span> Radio transmission using wavelengths 200-1000 m

Medium wave (MW) is the part of the medium frequency (MF) radio band used mainly for AM radio broadcasting. The spectrum provides about 120 channels with more limited sound quality than FM stations on the FM broadcast band. During the daytime, reception is usually limited to more local stations, though this is dependent on the signal conditions and quality of radio receiver used. Improved signal propagation at night allows the reception of much longer distance signals. This can cause increased interference because on most channels multiple transmitters operate simultaneously worldwide. In addition, amplitude modulation (AM) is often more prone to interference by various electronic devices, especially power supplies and computers. Strong transmitters cover larger areas than on the FM broadcast band but require more energy and longer antennas. Digital modes are possible but have not reached momentum yet.

<span class="mw-page-title-main">Very low frequency</span> The range 3–30 kHz of the electromagnetic spectrum

Very low frequency or VLF is the ITU designation for radio frequencies (RF) in the range of 3–30 kHz, corresponding to wavelengths from 100 to 10 km, respectively. The band is also known as the myriameter band or myriameter wave as the wavelengths range from one to ten myriameters. Due to its limited bandwidth, audio (voice) transmission is highly impractical in this band, and therefore only low data rate coded signals are used. The VLF band is used for a few radio navigation services, government time radio stations and for secure military communication. Since VLF waves can penetrate at least 40 meters (131 ft) into saltwater, they are used for military communication with submarines.

Low frequency (LF) is the ITU designation for radio frequencies (RF) in the range of 30–300 kHz. Since its wavelengths range from 10–1 km, respectively, it is also known as the kilometre band or kilometre wave.

<span class="mw-page-title-main">Medium frequency</span> The range 300-3000 kHz of the electromagnetic spectrum

Medium frequency (MF) is the ITU designation for radio frequencies (RF) in the range of 300 kilohertz (kHz) to 3 megahertz (MHz). Part of this band is the medium wave (MW) AM broadcast band. The MF band is also known as the hectometer band as the wavelengths range from ten to one hectometers. Frequencies immediately below MF are denoted as low frequency (LF), while the first band of higher frequencies is known as high frequency (HF). MF is mostly used for AM radio broadcasting, navigational radio beacons, maritime ship-to-shore communication, and transoceanic air traffic control.

<span class="mw-page-title-main">Longwave</span> Radio transmission using wavelengths above 1000 m

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'.

The Time from NPL is a radio signal broadcast from the Anthorn Radio Station near Anthorn, Cumbria, which serves as the United Kingdom's national time reference. The time signal is derived from three atomic clocks installed at the transmitter site, and is based on time standards maintained by the UK's National Physical Laboratory (NPL) in Teddington. The service is provided by Babcock International, under contract to the NPL. It was funded by the former Department for Business, Innovation and Skills; as of 2017 NPL Management Limited (NPLML) was owned by the Department for Business, Energy and Industrial Strategy (BEIS), and NPL operated as a public corporation.

<span class="mw-page-title-main">Omega (navigation system)</span> First global radio navigation system for aircraft

OMEGA was the first global-range radio navigation system, operated by the United States in cooperation with six partner nations. It was a hyperbolic navigation system, enabling ships and aircraft to determine their position by receiving very low frequency (VLF) radio signals in the range 10 to 14 kHz, transmitted by a global network of eight fixed terrestrial radio beacons, using a navigation receiver unit. It became operational around 1971 and was shut down in 1997 in favour of the Global Positioning System.

Communication with submarines is a field within military communications that presents technical challenges and requires specialized technology. Because radio waves do not travel well through good electrical conductors like salt water, submerged submarines are cut off from radio communication with their command authorities at ordinary radio frequencies. Submarines can surface and raise an antenna above the sea level, or float a tethered buoy carrying an antenna, then use ordinary radio transmissions; however, this makes them vulnerable to detection by anti-submarine warfare forces.

<span class="mw-page-title-main">Rugby Radio Station</span> British government radio transmission facility

Rugby Radio Station was a large British government radio transmission facility just east of the Hillmorton area of the town of Rugby, Warwickshire in England. The site straddled the A5 trunk road, with most of it in Warwickshire, and part on the other side of the A5 in Northamptonshire. First opened in 1926, at its height in the 1950s it was the largest radio transmitting station in the world, with a total of 57 radio transmitters, covering an area of 1,600 acres (650 ha). Traffic slowly dwindled from the 1980s onwards, and the site was closed between 2003 and 2007.

<span class="mw-page-title-main">Grimeton Radio Station</span> Historic Swedish wireless telegraphy station

Grimeton Radio Station in southern Sweden, close to Varberg in Halland, is an early longwave transatlantic wireless telegraphy station built in 1922–1924, that has been preserved as a historical site. From the 1920s through the 1940s it was used to transmit telegram traffic by Morse code to North America and other countries, and during World War II was Sweden's only telecommunication link with the rest of the world. It is the only remaining example of an early pre-electronic radio transmitter technology called an Alexanderson alternator. It was added to the UNESCO World Heritage List in 2004, with the statement: "Grimeton Radio Station, Varberg is an outstanding monument representing the process of development of communication technology in the period following the First World War." The radio station is also an anchor site for the European Route of Industrial Heritage. The transmitter is still in operational condition, and each year on a day called Alexanderson Day is started up and transmits brief Morse code test transmissions, which can be received all over Europe.

Beta is a time signal service in the VLF range in Russia, operated by the Russian Navy. It is controlled by All-Russian Scientific Research Institute for Physical-Engineering and Radiotechnical Metrology. There are 6 transmitter stations, which take turns transmitting time signals and other communications.

The Orfordness transmitting station was a major radio broadcasting facility at Orford Ness on the Suffolk coast in the United Kingdom able to broadcast to much of Europe. It closed in May 2012 after more than 30 years of service. In 2017 Radio Caroline started broadcasting from the site, though not with the same intended coverage of an audience in Europe as the original station.

<span class="mw-page-title-main">Alpha (navigation)</span> Russian system for long range radio navigation

Alpha, also known as RSDN-20, is a Russian system for long range radio navigation. RSDN in Russian stands for Радиотехническая Система Дальней Навигации, which translates to English as "radio-technical long-distance navigation system".

<span class="mw-page-title-main">Umbrella antenna</span>

An umbrella antenna is a capacitively top-loaded wire monopole antenna, consisting in most cases of a mast fed at the ground end, to which a number of radial wires are connected at the top, sloping downwards. They are used as transmitting antennas below 1 MHz, in the MF, LF and particularly the VLF bands, at frequencies sufficiently low that it is impractical or infeasible to build a full size quarter-wave monopole antenna. The outer end of each radial wire, sloping down from the top of the antenna, is connected by an insulator to a supporting rope or (usually) insulated cable anchored to the ground; the radial wires can also support the mast as guy wires. The radial wires make the antenna look like the wire frame of a giant umbrella hence the name.

<span class="mw-page-title-main">Ground dipole</span> Radio antenna that radiates extremely low frequency electromagnetic waves

In radio communication, a ground dipole, also referred to as an earth dipole antenna, transmission line antenna, and in technical literature as a horizontal electric dipole (HED), is a huge, specialized type of radio antenna that radiates extremely low frequency (ELF) electromagnetic waves. It is the only type of transmitting antenna that can radiate practical amounts of power in the frequency range of 3 Hz to 3 kHz, commonly called ELF waves. A ground dipole consists of two ground electrodes buried in the earth, separated by tens to hundreds of kilometers, linked by overhead transmission lines to a power plant transmitter located between them. Alternating current electricity flows in a giant loop between the electrodes through the ground, radiating ELF waves, so the ground is part of the antenna. To be most effective, ground dipoles must be located over certain types of underground rock formations. The idea was proposed by U.S. Dept. of Defense physicist Nicholas Christofilos in 1959.

<span class="mw-page-title-main">Lualualei VLF transmitter</span> Mast radiator insulated against ground in Hawaii, United States

VLF transmitter Lualualei is a facility of the United States Navy near Lualualei, Hawaii transmitting orders to submerged submarines in the very low frequency (VLF) range.

<span class="mw-page-title-main">VLF Transmitter Cutler</span> VLF radio transmitter operated by the US Navy

The VLF Transmitter Cutler is the United States Navy's very low frequency (VLF) shore radio station at Cutler, Maine. The station provides one-way communication to submarines of the Navy's Atlantic Fleet, both on the surface and submerged. It transmits with call sign NAA, at a frequency of 24 kHz and input power of up to 1.8 megawatts, and is one of the most powerful radio transmitters in the world.

<span class="mw-page-title-main">Anthorn</span> Human settlement in England

Anthorn is a village in Cumbria, England. Historically in Cumberland, it is situated on the south side of the Solway Firth, on the Wampool estuary, about 13 miles (21 km) west of Carlisle. It is the location of the Anthorn radio station, broadcasting specialised low frequency signals for timekeeping and navigation.

Naval Radio Transmitter Facility Aguada is a tall guyed radio mast erected by the United States Navy. It is used as a facility of the US Navy for ashore and U.S. and NATO ships, planes, and submarines operating at sea in areas of broadcast coverage near Aguada, Puerto Rico at 18°23′55″N67°10′38″W by using radio waves in the very low frequency range.

<span class="mw-page-title-main">Sainte-Assise transmitter</span> Radio transmitter in France

The Sainte-Assise transmitter is a very low frequency (VLF) radio transmitter and military installation located on the grounds of the Château de Sainte-Assise in the communes of Seine-Port, Boissise-la-Bertrand, and Cesson in the Seine-et-Marne department of the Île-de-France region of France. The transmitter's original equipment was inaugurated on 9 January 1921, at the time being the most powerful radio transmitter on Earth. On 26 November 1921 the first French radio program was transmitted from Sainte-Assise. In 1965 the transmitter was used to send VLF signals to FR-1, the first French satellite. Since 1998 the French Navy has used the transmitter to communicate with submerged submarines.

References

  1. 1 2 3 Delve 2006, pp. 33–35.
  2. Ritchie, p. 103
  3. Smith 1981, p. 37.
  4. 1 2 3 "High power VLF radio station for NATO". The Radio and Electronic Engineer. 29: 47. January 1965. doi:10.1049/ree.1965.0009. reprinted on IEEE website
  5. van Horn, Larry (2009). Shortwave Directory. Brasstown, NC: Monitoring Times. p. 208. ISBN   978-0-944543-00-9.
  6. Laurie, Peter (30 May 1974). "No room in the radio spectrum". New Scientist . 62 (900): 533.
  7. John Ainslie (October 2005). "The Future of the British Bomb" (PDF). Clydeside Press. Archived from the original (PDF) on 6 July 2006.
  8. 1 2 L.L. Hall (July 1965). "Anthorn Very-Low-Frequency Radio Station". The Post Office Electrical Engineers' Journal . Institution of Post Office Electrical Engineers. 58 (2): 114–118.
  9. "MSF Radio Time Signal". National Physical Laboratory. Archived from the original on 11 February 2012. Retrieved 1 May 2022. General and technical information, advice on reception problems, and up-to-date information on signal outages and scheduled maintenance
  10. "The GLAs award a 15-year eLoran contract to VT Communications" (Press release). Trinity House. 31 May 2007. Archived from the original on 23 April 2008.
  11. "27-15 Enhanced Loran discontinued". Notice to Mariners. Trinity House. 1 December 2015.
  12. "With new space program, UK continues march to more holistic PNT". GPS World. 25 September 2020. Retrieved 17 November 2021.

Sources

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.