The AN/SPG-51 is an American tracking / illumination fire-control radar for RIM-24 Tartar and RIM-66 Standard missiles. It is used for target tracking and Surface-to-air missile guidance as part of the Mk. 73 gun and missile director system, which is part of the Tartar Guided Missile Fire Control System.[4]
Country of origin | United States |
---|---|
Manufacturer | Raytheon[1] |
Type | Pulse-Doppler radar, Missile fire-control |
Frequency | |
PRF |
|
Beamwidth |
|
Pulsewidth | Tracking Radar: 2.1-3.2 μs |
Range | Tracking Radar: 100 nmi (190 km)[2] |
Azimuth | 360° at 12°/s[3][b] |
Elevation | -30° to 83°[3][b] |
Precision | Fire control quality three-dimensional data |
Power |
Aircraft tracking is based on monopulse radar utilizing Pulse-Doppler radar signal processing in MK 74 MOD 14 and MK 74 MOD 15. The MK 74 MOD 15 configuration includes continuous-wave radar tracking in addition to pulse-Doppler tracking. It provides illumination for bistatic radar operation associated with missile guidance in all configurations. Older systems rely on conical scanning rather than monopulse.
Platforms
edit- T 47-class destroyer (Du Chayla subclass post AAW modernization)[5][6]
- Cassard-class frigate[7]
Variants
edit- SPG-51: Original Model.
- SPG-51B: Upgraded SPG-51 designed for use with Improved Tartar (IT) missile.[11]
- SPG-51C: Automatic acquisition and tracking, increased reliability, and improved ECCM capabilities, clutter rejection, and multiple target resolution.[1]
- SPG-51D: Klystron replaced with traveling-wave tube to permit the transmission to be chosen from a much wider bandwidth. Increased use of integrated circuitry and digital circuitry.[2]
- SPG-51E: Proposed "universal fire control radar" capable of controlling the RIM-8 Talos as well as Tartar.[1] Not built in quantity.[12]
-
AN/SPG-51 radars of a Cassard class frigate
References
edit- ^ a b c d e f g h Hemenway, D.F.; Navid, B.N. (September 1978). Reliability of Naval Radar Systems (Report). Washington D.C.: Naval Research Laboratory. pp. 83–88.
- ^ a b Winter, Charles F. (Winter 1974). "Mechanically-Scanning Antennas". Electronic Progress. 16 (4): 4. Bibcode:1974ElPr...16....2W.
- ^ Jane's weapon systems. 1972-73: 4th ed. Ronald Thomas Pretty, Dennis Henry Ross Archer. London: Jane's Yearbooks. 1972. p. 540. ISBN 0-354-00105-1. OCLC 655668873.
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: CS1 maint: others (link) - ^ a b c d e Jordan, John (1986). An illustrated guide to modern destroyers. New York, N.Y.: Prentice Hall. pp. 58, 70, 77, 79, 134. ISBN 0-13-450776-2. OCLC 13010345.
- ^ a b c d e f g h i The World's navies. Christopher Chant. Newton Abbot [England]: David and Charles. 1979. pp. 63, 92–93, 104, 122, 229, 231, 241. ISBN 0-7153-7689-6. OCLC 5798981.
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: CS1 maint: others (link) - ^ a b c d Combat fleets of the world : their ships, aircraft, and armament, 1986/87. Jean Labayle Couhat, United States Naval Institute (6th ed.). Annapolis, Md.: Naval Institute Press. 1986. pp. 13, 123, 420, 643. ISBN 0-85368-860-5. OCLC 14161346.
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: CS1 maint: others (link) - ^ Jane's fighting ships, 2009-2010 2009/2010. Stephen Saunders (112th ed.). Coulsdon: Jane's Information Group. 2009. p. 395. ISBN 978-0-7106-2888-6. OCLC 652063550.
{{cite book}}
: CS1 maint: others (link) - ^ NAVEDTRA 10199-C: Gunner's Mate M 3 & 2. Naval Education and Training Support Command. 1977. p. 147.
- ^ Jane's strategic weapons systems. Duncan Lennox, Roger Loasby, Jane's Information Group (1st ed.). Coulsdon, Surry, Eng.: Jane's Information Group. 1989. p. 405. ISBN 0-7106-0880-2. OCLC 20284225.
{{cite book}}
: CS1 maint: others (link) - ^ "Evaluating the DDG". Proceedings of the U.S. Naval Institute. 91 (7): 749. July 1, 1965. Retrieved February 18, 2023.
- ^ Friedman, Norman (1989). The Naval Institute guide to world naval weapons systems. United States Naval Institute. Annapolis, Md.: Naval Institute Press. p. 201. ISBN 0-87021-793-3. OCLC 20098065.