SLC-2 Radar

Last updated August 10, 2024

The SLC-2 Radar is a Chinese active electronically scanned array counter-battery radar designed to locate hostile artillery, rocket and ground-to-ground missile launchers immediately after firing, and to support friendly artillery by guiding counter-battery fire.

Development

Four AN/TPQ-37 Firefinder radars were sold to China, and these became the foundation of the SLC-2 radar development. Aside from political reasons, the US$10 million plus unit price tag of the TPQ-37 (including after sale logistic support) was simply too costly for the Chinese. The decision was made to develop a domestic equivalent after mastering the technologies of the TPQ-37. After the initial test of the TPQ-37 in Tangshan (汤山) Range near Nanjing in 1988, and in Xuanhua District in October of the same year, several shortcomings of the TPQ-37 were discovered, and further intensive tests were conducted and completed in 1994.

The requirement of the Chinese domestic equivalent was subsequently modified to address these issues revealed in trials. Due to the limitation of the Chinese industrial capability at the time, decision was made to develop the Chinese domestic equivalent in several steps. The first step was to develop a smaller one, which would result in the Chinese equivalent of the AN/TPQ-36 Firefinder, and based on the experience gained from this program, a more capable larger version in the same class of the AN/TPQ-37 Firefinder would be developed, which eventually resulted in SLC-2 series.

Type 373 radar

This is the predecessor of SLC-2 radar, using older passive electronically scanned array technology. Type 373 radar is fielded after the Type 704 radar series, which Type 373 radar is based on. The Type 373 radar is designed to specifically improve the performance of the TPQ-37 by solving the shortcoming revealed in tests. One limitation of the TPQ-37 revealed in tests was that it was less effective against projectiles with flat trajectory, so it was much more effective against high-angle howitzer and mortar rounds than rounds from the M-46 and its Chinese derivative Type 59–1. Type 373 radar was designed to improve the capability against flat trajectory rounds.

Another problem revealed in the tests was that the TPQ-37's reliability was much lower than claimed. The reason was that when the TPQ-37 was deployed in environments with high humidity and high level of rainfall (southern China), high salinity (coastal regions), high altitude (southwestern China), and subjected to daily high temperature differences (northwestern China), malfunctions occurred more frequently. The Type 373 radar was designed specifically to improve the reliability against these harsh environmental factors.

SLC-2

As Chinese capability in microelectronics matured, an updated version of passive phased array Type 373 radar was developed, designated the SLC-2. This is a fully solid-state, highly digitized version that adopts planar active phased array antenna.

One of the shortcomings of TPQ-37 revealed in tests was in its multi-targeting capability. When enemy artillery batteries located more than two hundred meters apart fired simultaneously, the TPQ-37 could provide accurate coordinate for distance, but coordinates for positions were less accurate. This would not be a problem for most users because TPQ-37 can be used in pairs in conjunction, provide accurate coordinates for locations. However, these costly radars could not be purchased in large numbers and China thus developed the capability for SLC-2 to provide accurate coordinates for both distance and position. Myanmar Army currently operating as many as 27 SLC-2 radars for artillery force.^{[ citation needed ]} Bangladesh Bought two in 2012. ^[1] Pakistan also operates significant number of SLC-2 Radar^[2]

Analysts say that footage of Pakistan's artillery deployments have shown that Pakistan has used SLC-2 radar alongside the A-100E.^[3]

Specifications

S - band
Detection range: (for 80% detection probability against 81-mm mortar rounds sized target)
- For artillery—35 km
- For rockets—50 km
Accuracy: 0.35% of range (for range more than 10 km)
- 35 m (for range less than 10 km)
Peak power: 45 kW
Noise: 3 dB
Clutter improvement factor: 55 dB
Other features:
- Active phased array antenna with electronic scanning both in azimuth and elevation
- Sophisticated computer-controlled digital signal processing
- Comprehensive online or offline BITE
- Automatic/manual height correction with digital/video map
- Various effective ECCM
- Tracking while scanning

Related Research Articles

Counter-battery fire is a battlefield tactic employed to defeat the enemy's indirect fire elements, including their target acquisition, as well as their command and control components. Counter-battery arrangements and responsibilities vary between nations but involve target acquisition, planning and control, and counter-fire. Counter-battery fire rose to prominence in World War I.

<span class="mw-page-title-main">Counter-battery radar</span> Radar that locates artillery pieces by tracking their projectiles

A counter-battery radar or weapon tracking radar is a radar system that detects artillery projectiles fired by one or more guns, howitzers, mortars or rocket launchers and, from their trajectories, locates the position on the ground of the weapon that fired it. Such radars are a subclass of the wider class of target acquisition radars.

The AN/MPQ-64 Sentinel is an X-band electronically steered pulse-Doppler 3D radar system used to alert and cue Short Range Air Defense (SHORAD) weapons to the locations of hostile targets approaching their front line forces. It is currently produced by Raytheon Missiles & Defense.

The Type 730 is a Chinese seven-barrelled 30 mm Gatling gun/rotary cannon CIWS. It has a PLA Navy designation H/PJ12. It is mounted in an enclosed automatic turret and directed by radar, and electro-optical tracking systems. The maximum rate of fire is 5800 rd/m, and the effective range is up to 3 km.

Hughes AN/TPQ-36 Firefinder weapon locating system is a mobile radar system developed in the mid-late 1970s by Hughes Aircraft Company and manufactured by Northrop Grumman and ThalesRaytheonSystems, achieving initial operational capability in May 1982. The system is a "weapon-locating radar", designed to detect and track incoming mortar, artillery and rocket fire to determine the point of origin for counter-battery fire. It is currently in service at battalion and higher levels in the United States Army, United States Marine Corps, Australian Army, Portuguese Army, Turkish Army, and the Armed Forces of Ukraine.

The People's Liberation Army Navy (PLAN) is the naval branch of the People's Liberation Army (PLA), the armed forces of the People's Republic of China. The PLAN force consists of approximately 250,000 men and over a hundred major combat vessels, organized into three fleets: the North Sea Fleet, the East Sea Fleet, and the South Sea Fleet.

<span class="mw-page-title-main">Passive electronically scanned array</span> Type of antenna

A passive electronically scanned array (PESA), also known as passive phased array, is an antenna in which the beam of radio waves can be electronically steered to point in different directions, in which all the antenna elements are connected to a single transmitter and/or receiver. The largest use of phased arrays is in radars. Most phased array radars in the world are PESA. The civilian microwave landing system uses PESA transmit-only arrays.

Hughes AN/TPQ-37 Firefinder Weapon Locating System is a mobile radar system developed in the late 1970s by Hughes Aircraft Company, achieving Initial Operational Capability in 1980 and full deployment in 1984. Currently manufactured by ThalesRaytheonSystems, the system is a long-range version of "weapon-locating radar", designed to detect and track incoming artillery and rocket fire to determine the point of origin for counter-battery fire. It is currently in service at brigade and higher levels in the United States Army and by other countries. The radar is trailer-mounted and towed by a 2+1⁄3-short-ton (2,100 kg) truck. A typical AN/TPQ-37 system consists of the Antenna-Transceiver Group, Command Shelter and 60 kW Generator.

The Type 704 is a counter-battery radar designed to accurately locate the hostile artillery, rocket and ground-to-ground missile launcher immediately after the firing of enemy, and support friendly artillery by providing guidance of counter fire. Built by NORINCO, it was first displayed publicly in 1988's ASIADEX defence show.

The Sukhoi Su-30MKK is a modification of the Sukhoi Su-30, incorporating advanced technology from the Sukhoi Su-35 variant. The Su-30MKK was developed by Sukhoi in 1997, as a result of a direct Request for tender between the Russian Federation and China. It is a heavy class, all-weather, long-range strike fighter, and like the Sukhoi Su-30, comparable to the American McDonnell Douglas F-15E Strike Eagle. The Sukhoi Su-30MK2 is a further improvement to Su-30MKK with upgraded avionics and maritime strike capabilities. The MKK and MK2 are currently operated by the People's Liberation Army Air Force, Indonesian Air Force, Vietnam People's Air Force, Venezuelan Air Force and the Ugandan Air Force.

ARTHUR is a counter-battery radar system originally developed jointly for and in close co-operation with the Norwegian and Swedish armed forces by Ericsson Microwave Systems in both Sweden and Norway. It is also used by the British Army, under the names mobile artillery monitoring battlefield radar or mobile artillery monitoring battlefield asset (MAMBA).

<span class="mw-page-title-main">Sri Lanka Artillery</span> Military unit

The Sri Lanka Artillery (SLA) is the artillery arm of the Sri Lanka Army. It is made up of ten regular regiments and two volunteer regiments. The SLA is headquartered at Panagoda Cantonment, Panagoda.

The Swathi weapon locating radar is a mobile artillery-locating, phased array radar developed by India. This counter-battery radar is designed to detect and track incoming artillery and rocket fire to determine the point of origin for counter-battery fire.

AN/TPQ-53 Quick Reaction Capability Radar is a mobile active electronically scanned array counter-battery radar system manufactured by Lockheed Martin. The radar is specifically designed to locate the firing positions of both rocket and mortar launchers.

<span class="mw-page-title-main">AN/TPS-80 Ground/Air Task Oriented Radar</span> Mobile radar system

The AN/TPS-80 Ground/Air Task Oriented Radar (G/ATOR) is the United States Marine Corps next-generation Air Surveillance/Air Defense and Air Traffic Control (ATC) Radar. The mobile active electronically scanned array radar system is being developed by Northrop Grumman and was expected to reach initial operating capability in August 2016.

The Radar Set AN/MPQ-4 was a US Army counter-battery radar primarily used to find the location of enemy mortars and larger artillery in a secondary role. Built by General Electric, it first entered service in 1958, replacing the earlier and much simpler AN/MPQ-10. The MPQ-4 could determine the location of an enemy mortar in as little as 20 seconds by observing a single round, whereas the MPQ-10 required several rounds to be launched and could take 4 to 5 minutes to take a "fix". The MPQ-4 remained one of the primary US counter-battery systems through the late 1970s until it was replaced by passive electronically scanned array radars like the AN/TPQ-36.

Aistyonok is a portable counter-battery radar system developed and produced by the state-owned Almaz-Antey corporation for the Russian Armed Forces.

Zoopark-1 1L219 is a counter-battery radar system developed by Almaz-Antey for the Soviet Armed Forces. It is a mobile active electronically scanned array radar for the purpose of enemy field-artillery acquisition. The system can detect mortar shells at a distance of up to 20 kilometers, up to 30 kilometers for artillery shells and up to 50 kilometers for ground-to-air rockets, determining location of origin of a fire. Moving ground targets can be detected at a distance of up to 40 kilometers. It reached initial operating status in 1989.

COBRA COunter Battery RAdar is a Counter-battery radar system developed jointly by Thales, Airbus Defence and Space and Lockheed Martin for the French, British and German Armed Forces. It is a mobile Active electronically scanned array 3D radar based on a wheeled chassis for the purpose of enemy field artillery acquisition.

References

↑ http://www.security-risks.com/security-trends-south-asia/bangladesh/armed-forces-modernisation-and-upgradation-1672.html" Archived 2013-03-23 at the Wayback Machine
↑ SLC-2 Chinese Mobile Counter-Battery Radar in Pakistan, 2024-03-28
↑ Bilal Khan. "Pakistan Tests Indigenous Fatah-1 Guided MLRS".

Fire Control Radar Technology, Dec 1999 issue, Xi'an Electronics Research Institute (also known as Institute No. 206 of China Arms Industry Group Corporation), Xi'an, December, 1999, ISSN 1008-8652, Domestic Chinese SN: CN 61-1214/TJ.
Fire Control Radar Technology, Feb 1995 issue, Xi'an Electronics Research Institute (also known as Institute No. 206 of China Arms Industry Group Corporation), Xi'an, February, 1995, ISSN 1008-8652，Domestic Chinese SN: CN 61-1214/TJ.
Ordnance Knowledge, Jul 2007 issue, Ordnance Knowledge Magazine Publishing House, Beijing, July, 2007, ISSN 1000-4912, Domestic Chinese SN: CN 11-1470/TJ.

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.

[1] ttp://www.security-risks.com/security-trends-south-asia/bangladesh/armed-forces-modernisation-and-upgradation-1672.html" Archived 2013-03-23 at the Wayback Machine

[2] SLC-2 Chinese Mobile Counter-Battery Radar in Pakistan, 2024-03-28

[3] Bilal Khan. "Pakistan Tests Indigenous Fatah-1 Guided MLRS".

[1]

[2]

[3]