CTV-N-2 Gorgon IIC
| CTV-N-2 Gorgon IIC|
A KUN-1 (Gorgon IIC) in 1947
|Type||Propulsion test vehicle|
|Place of origin||United States|
|Used by||United States Navy|
|Designer||Naval Aircraft Modification Unit|
|Manufacturer||Singer Manufacturing Company|
|Mass||1,950 pounds (880 kg)|
|Length||19 feet 7 inches (5.97 m)|
|Engine||one Naval Engineering Experiment Station 14" pulsejet|
330 lbf (1,500 N) thrust
|Wingspan||11 feet 6 inches (3.51 m)|
|80 miles (130 km)|
|Speed||450 mph (720 km/h)|
|Active radar homing|
The CTV-N-2 Gorgon IIC – also designated KGN, KUN, and CTV-2 – was an experimental drone, originally intended as a surface-to-surface missile, developed by the United States Navy near the end of World War II. It was used to test control and homing systems for guided missiles, and was also produced in small numbers as a target drone under the designations TD3N and KD2N.
Design and development
Late in World War II, the U.S. Navy began development of a pulsejet-powered bombardment missile, intended to be launched from ships for use against targets ashore; in April 1945, plans for the invasion of Japan called for the production of "several hundred" missiles, named Gorgon IIC; initially, 20 prototype missiles were to be produced by the Naval Aircraft Modification Unit in Pennsylvania, while an order for 100 was placed with the Singer Manufacturing Company, a sewing machine manufacturer, in August 1945. The end of the war saw the cancellation of the production plans, however development continued, and in October 1945 the Gorgon IIC received the designation KGN-1.
The Gorgon IIC was very similar in design to the Gorgon IIA air-to-air missile, being of canard configuration with a high-mounted monoplane wing and vertical and ventral stabilizing fins. The pulsejet, developed at the Naval Engineering Experiment Station, was 14 inches (360 mm) in diameter and was mounted above the rear fuselage; launch was from the ground using a catapult or sled with a 900 lbf (4,000 N) rocket booster, or from a carrier aircraft. In its original, bombardment configuration, the Gorgon IIC was intended to use active radar homing, similar to that used on the Bat guided bomb.
Testing of the Gorgon IIC began in 1946; late that year it was redesignated KUN-1 to reflect its non-combat role, while in September 1947 it was redesignated CTV-2, and in 1948 received its definitive designation of CTV-N-2. Gorgon IIC was used to test guidance and control devices for guided missile development; in 1950, an active radar guidance system was trialled using a CTV-N-2, successfully homing from a distance of 9 nautical miles (17 km; 10 mi). Trials of the Gorgon IIC were considered generally satisfactory by the Navy.
Eight target drone versions of the Gorgon IIC, originally designated TD3N-1 but, in March 1946, redesignated KD2N-1, were also produced; the KD2N was used in parachute-recovery trials around 1950.
The RTV-N-15 Pollux was derived from the Gorgon IIC airframe, the pulsejet engine being moved to an internal mounting, and it was intended to use a mixture of radar and infrared guidance. Pollux was first flown in 1948, however by 1951 it had been flown only three times, and the program was cancelled.
- Ordway and Wakeford 1960, p.181.
- Parsch 2005
- White 1991, p.36.
- "Links to the Past: Michiana History – Record Detail: Singer Sewing Machine Company – 1927". South Bend, IN: St. Joseph County Public Library. Retrieved 2017-12-06.
- Friedman 1982, p.201
- Ordway and Wakeford 1960, p.182.
- "RTV-N-15 drone". National Air and Space Museum. Smithsonian Institution. 26 September 2016. Retrieved 2017-12-04.
- Friedman, Norman (1982). U.S. Naval Weapons: Every gun, missile, mine, and torpedo used by the U.S. Navy from 1883 to the present day. Annapolis, MD: Naval Institute Press. ISBN 978-0-87021-735-7.
- Ordway, Frederick Ira; Ronald C. Wakeford (1960). International Missile and Spacecraft Guide. New York: McGraw-Hill. ASIN B000MAEGVC.
- Parsch, Andreas (4 January 2005). "Martin ASM-N-5 Gorgon V (and other NAMU Gorgon variants)". Directory of U.S. Military Rockets and Missiles, Appendix 1: Early Missiles and Drones. Designation-Systems. Retrieved 2017-12-04.
- White, Maxwell (1991). An Interpretative History of the Pacific Missile Test Center: The Genesis, Road to Point Mugu, 1936–1946. Point Mugu, CA: Pacific Missile Test Center. ASIN B00010AIGU.