Green Archer (radar)
Encyclopedia
Green Archer, also called Radar, Field Artillery, No 8 was a widely used British mortar
locating radar
operating in the X band
using a Foster scanner. Developed by EMI
after an experimental model by the Royal Radar Establishment
, it was in British service from 1962 until 1975 with the Royal Artillery
. A self-propelled version was designated FV436 or Radar, FA, No 8 Mk 2.
Mortars, using indirect fire, became a major threat to infantry in World War 2. It was found that mortar bombs in flight could be detected and tracked by radar. US and UK anti-aircraft radars were used and specialised mortar locating radars appeared at the end of the war, and were used in Korea
with varying degrees of success. Hostile mortars had to be accurately located before they could be attacked with indirect fire from guns or mortars. Since hostile mortars moved frequently to avoid return fire it was essential to have a means of locating them to a few tens of metres of accuracy and to be able to respond quickly when they are located. Green Archer provided a means of locating mortars quickly and accurately.
Before Green Archer mortar locating radars had to track (often manually) a mortar bomb in flight for several seconds, having first "found" the bomb in flight. Finding was made a bit easier if the beam cone had a large angle, the problem with this was that it reduced the accuracy of location. Green Archer took a totally different approach.
Green Archer’s distinguishing characteristic was its Foster scanner. This converted the narrow conic radar beam into one some 40° wide in azimuth and less than 1° high in elevation. The antenna was mechanically switched between two fixed elevations. The radar detected a mortar bomb as it passed through the lower beam, the operator marked it on his display and flicked the beam into the upper elevation, and again marked the bomb as it went through the beam. He then placed cursors over his marks and input the plot to the radar’s analogue computer.
These two plots, the time between them and the angle between the two beam positions gave two points on a parabolic curve. Such a curve is defined by two points and is a good approximation of a mortar bomb trajectory. Using these, the azimuth of the radar beam centre and the radar’s coordinates, the mortar position coordinates were calculated. These could be adjusted to reflect the actual height of the ground.
Green Archer could locate a medium mortar up to about 10 km away and a heavy mortar out to 17 km, the maximumrange. It took about 30 seconds from a mortar firing to producing its location. The radar could also be used "in reverse" to observe and adjust mortar fall of shot and that of guns firing in high angle. It was also capable of surface observation.
In British service it was mostly organised as a radar section of two radars in the locating (G) troop of field regiments. In addition to the radars the section also had a command post and deployed two Listening Posts (LPs). The task of the LPs was to report mortars firing and the area they were in. This told the radar to switch-on, and so avoided continuous transmission as an electronic counter measure. The other section of the troop provided an artillery intelligence section at brigade headquarters responsible for fighting the brigade’s counter-mortar battle.
British Green Archers were successfully used on operations in Borneo, South Arabia and Oman against mortars and for border surveillance in Hong Kong.
Each radar section was supported by an electronic repair vehicle which carried a spare for each of the 13 major sub-assemblies in each radar.
that replaced Green Archer. However, it did not enter UK service. Nevertheless the cutaway hull design was applied to M113 APCs and used by at least three armies.
in Norfolk.
Mortar (weapon)
A mortar is an indirect fire weapon that fires explosive projectiles known as bombs at low velocities, short ranges, and high-arcing ballistic trajectories. It is typically muzzle-loading and has a barrel length less than 15 times its caliber....
locating radar
Radar
Radar is an object-detection system which uses radio waves to determine the range, altitude, direction, or speed of objects. It can be used to detect aircraft, ships, spacecraft, guided missiles, motor vehicles, weather formations, and terrain. The radar dish or antenna transmits pulses of radio...
operating in the X band
X band
The X band is a segment of the microwave radio region of the electromagnetic spectrum. In some cases, such as in communication engineering, the frequency range of X band is rather indefinitely set at approximately 7.0 to 11.2 gigahertz . In radar engineering, the frequency range is specified...
using a Foster scanner. Developed by EMI
EMI
The EMI Group, also known as EMI Music or simply EMI, is a multinational music company headquartered in London, United Kingdom. It is the fourth-largest business group and family of record labels in the recording industry and one of the "big four" record companies. EMI Group also has a major...
after an experimental model by the Royal Radar Establishment
Royal Radar Establishment
The name Royal Radar Establishment was given to the existing Radar Research Establishment following a visit by Queen Elizabeth II in 1957. Both names were abbreviated to RRE. The establishment had been formed, under its first name, in 1953 by merging the Telecommunications Research Establishment ...
, it was in British service from 1962 until 1975 with the Royal Artillery
Royal Artillery
The Royal Regiment of Artillery, commonly referred to as the Royal Artillery , is the artillery arm of the British Army. Despite its name, it comprises a number of regiments.-History:...
. A self-propelled version was designated FV436 or Radar, FA, No 8 Mk 2.
Mortars, using indirect fire, became a major threat to infantry in World War 2. It was found that mortar bombs in flight could be detected and tracked by radar. US and UK anti-aircraft radars were used and specialised mortar locating radars appeared at the end of the war, and were used in Korea
Korean War
The Korean War was a conventional war between South Korea, supported by the United Nations, and North Korea, supported by the People's Republic of China , with military material aid from the Soviet Union...
with varying degrees of success. Hostile mortars had to be accurately located before they could be attacked with indirect fire from guns or mortars. Since hostile mortars moved frequently to avoid return fire it was essential to have a means of locating them to a few tens of metres of accuracy and to be able to respond quickly when they are located. Green Archer provided a means of locating mortars quickly and accurately.
Description
Green Archer comprised two units each mounted on a four wheel trailer with levelling jacks, one unit was the complete radar, the other a fully silenced generator inaudible at 200 m to permit operation in forward areas. The radar unit weighed 2,915 kg and with the antenna in the operating position was 2.9 m high. The radar display was positioned up to about 15 metres from the radar and had a built in simulator for training. Each radar and generator was usually towed by a Humber 1 ton armoured vehicle.Before Green Archer mortar locating radars had to track (often manually) a mortar bomb in flight for several seconds, having first "found" the bomb in flight. Finding was made a bit easier if the beam cone had a large angle, the problem with this was that it reduced the accuracy of location. Green Archer took a totally different approach.
Green Archer’s distinguishing characteristic was its Foster scanner. This converted the narrow conic radar beam into one some 40° wide in azimuth and less than 1° high in elevation. The antenna was mechanically switched between two fixed elevations. The radar detected a mortar bomb as it passed through the lower beam, the operator marked it on his display and flicked the beam into the upper elevation, and again marked the bomb as it went through the beam. He then placed cursors over his marks and input the plot to the radar’s analogue computer.
These two plots, the time between them and the angle between the two beam positions gave two points on a parabolic curve. Such a curve is defined by two points and is a good approximation of a mortar bomb trajectory. Using these, the azimuth of the radar beam centre and the radar’s coordinates, the mortar position coordinates were calculated. These could be adjusted to reflect the actual height of the ground.
Green Archer could locate a medium mortar up to about 10 km away and a heavy mortar out to 17 km, the maximumrange. It took about 30 seconds from a mortar firing to producing its location. The radar could also be used "in reverse" to observe and adjust mortar fall of shot and that of guns firing in high angle. It was also capable of surface observation.
In British service it was mostly organised as a radar section of two radars in the locating (G) troop of field regiments. In addition to the radars the section also had a command post and deployed two Listening Posts (LPs). The task of the LPs was to report mortars firing and the area they were in. This told the radar to switch-on, and so avoided continuous transmission as an electronic counter measure. The other section of the troop provided an artillery intelligence section at brigade headquarters responsible for fighting the brigade’s counter-mortar battle.
British Green Archers were successfully used on operations in Borneo, South Arabia and Oman against mortars and for border surveillance in Hong Kong.
Each radar section was supported by an electronic repair vehicle which carried a spare for each of the 13 major sub-assemblies in each radar.
Variants
A self-propelled version was fully developed. It was mounted on the cutaway rear of FV432 APC and designated FV436 or Radar, FA, No 8 Mk 2. It had an automatic radar levelling arrangement using mercury, which was adopted for the Radar, FA No 15 Mk 2, or CymbelineCymbeline (radar)
Radar, Field Artillery, No 15, better known as Cymbeline, was a widely-used British mortar locating radar operating in the I band using a Foster scanner...
that replaced Green Archer. However, it did not enter UK service. Nevertheless the cutaway hull design was applied to M113 APCs and used by at least three armies.
Other Users
In addition to the UK, Green Archer was used by the armies of Germany, the Netherlands and Denmark (all self-propelled, mounted on an M-113 chassis), Italy, Israel, South Africa, Sweden, and Switzerland.Survivors
A complete system, a radar trailer and a generator trailer, is preserved at the Radar Museum at RAF NeatisheadRAF Neatishead
RRH Neatishead, is a Royal Air Force military radar station in the English county of Norfolk, East Anglia, and was established during the Second World War. It consists of the main technical site, and a number of remote, and sometimes unmanned sites....
in Norfolk.