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BAT (guided bomb)
BAT-PB4Y-wingbat
Bat guided bomb mated to PB4Y Privateer
Type Conventional
Place of origin United States
Service history
In service 1942 (Bomb MK 57)[1] - 1953 (ASM-N-2)
Used by United States Navy
Wars World War II
Production history
Manufacturer National Bureau of Standards
No. built 2580[2]
Specifications
Mass Airframe and guidance package only - 600 lb (273 kg)
Length 11 feet, 11 inches (3.63 m)
Width 10 feet (3.05 m)

Filling weight 1,000 lb bomb (1,600 lb (727 kg) gross)
Bat missile NAN6-50

A Bat on its hoist

The Bat guided bomb was a United States Navy World War II radar-guided missile[3] which was used in combat beginning in August 1944.

Background[]

In January 1941 RCA proposed a new TV-guided anti-shipping weapon called Dragon for which an operator would use the TV image sent from the nose of the weapon and operate aerodynamic controls during the weapon's fall. The National Bureau of Standards (NBS) would provide the airframe for use with a standard bomb, and was the same guidable ordnance airframe design used for the earlier, abortive Project Pigeon weapons program.[4] The Pelican was a June 1942 modification to instead drop depth charges (e.g., against U-boats) using semi-active radar homing. By mid-1943, the design was changed again to use a new active radar homing system from Western Electric with a 2,000-pound (907 kg) general-purpose (GP) bomb, the same basic ordnance unit as used for the heavier USAAF VB-2 version of the Azon radio-controlled ordnance. This Pelican version entered testing in summer 1944 at Naval Air Station New York, where it hit its target ship in two out of four drops.

Development[]

The Bat was the production version which combined the original NBS airframe with a 1,000-pound (454 kg) GP bomb, the same basic ordnance that was used in the contemporary Azon guided munition, and the Pelican active radar system.[5] Gyrostabilized with an autopilot supplied by Bendix Aviation, the steerable tail elevator was powered by small wind-driven generators. The Navy's Bureau of Ordnance[5] in partnership with the Massachusetts Institute of Technology (MIT) supervised development and the NBS was in charge of the overall development. Flight tests were conducted at the Naval Air Ordnance Test Station at Chincoteague Island, Virginia. Hugh Latimer Dryden won the President's Certificate of Merit for the development of the Bat,[3] which "was flight tested by a small unit based at Philadelphia against targets in New Jersey."[6]

Deployment[]

The antiship variant of the Bat (SWOD, for "Special Weapons Ordnance Device",[7] Mark 9 Modification 0) eventually saw combat service beginning in April 1945 off Borneo, dropped by PB4Y Privateers[5] (one bomb mounted under each wing) at altitudes of 15,000 to 25,000 feet (4,600–7,600 m) at airspeeds of 140 to 210 knots (260–390 km/h). Several Japanese ships were sunk and the kaibokan Aguni was damaged from a range of 20 nmi (37 km), which is frequently miscredited as being sunk and as being a destroyer.[8] Several Bats were also fitted with modified radar systems (SWOD Mark 9 Model 1) and dropped on Japanese-held bridges in Burma and other land-based targets. The Bat's pioneering radar guidance system was easily confused by radar land clutter, particularly against targets close to shore.

After the war, the naval designation ASM-N-2 was applied to the unit.

The Privateer was the primary launch platform for the Bat, but other aircraft were also modified to launch the weapon, including the F4U Corsair, SB2C Helldiver, and TBF Avenger. The primary post-World War II aircraft to carry the weapon was the P-2 Neptune.

Existing Bat Missiles[]

The original NBS test airframe of the Bat was renovated in 2001 to resemble the real missile and is currently on display at the museum of the National Institute of Standards and Technology,[9] the successor to the earlier US National Bureau of Standards.

See also[]

References[]

  1. "ASM-N-2". Directory of U.S. Military Rockets and Missiles. Archived from the original on 13 November 2007. http://web.archive.org/web/20071113195356/http://www.designation-systems.net/dusrm/app1/asm-n-2.html. Retrieved 2007-12-24. 
  2. Kopp, Dr Carlo. "The Dawn of the Smart Bomb". Air Power Australia. http://www.ausairpower.net/WW2-PGMs.html. Retrieved 2007-12-24. 
  3. 3.0 3.1 "Missile, Air-to-Surface, Bat". Rockets and Missiles. Smithsonian National Air and Space Museum. Archived from the original on 7 May 2009. http://web.archive.org/web/20090507212235/http://collections.nasm.si.edu/code/emuseum.asp?profile=objects&newstyle=single&quicksearch=A19500104000. Retrieved 2009-05-12. 
  4. Neilster (July 14, 2006). "Pigeon guidance system". http://www.ww2aircraft.net/forum/weapons-systems-tech/pigeon-guidance-system-4529.html#post177157. Retrieved June 7, 2013. 
  5. 5.0 5.1 5.2 Fahrney, Delmar S., RADM USN (December 1980). "The Birth of Guided Missiles". United States Naval Institute Proceedings. p. 60. https://www.usna.com/SSLPage.aspx?pid=2655. 
  6. Merrill, Capt Grayson (undated anecdote). "Innovation Wins Wars". Your story - Class of 1934. USNA Alumni Association and Foundation. http://www.usna.com/page.aspx?pid=599#Innovation. Retrieved 2013-01-07. "BAT was flight tested by a small unit based at Philadelphia against targets in New Jersey." 
  7. SWOD
  8. http://www.combinedfleet.com/Aguni_t.htm
  9. "The Bat Missile". NIST. Archived from the original on 27 May 2010. http://web.archive.org/web/20100527090318/http://museum.nist.gov/panels/batmissile/index.html. Retrieved 7 June 2010. 

External links[]

All or a portion of this article consists of text from Wikipedia, and is therefore Creative Commons Licensed under GFDL.
The original article can be found at Bat (guided bomb) and the edit history here.
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