Fritz X
| Fritz X | |
|---|---|
Side view of a Fritz X in the RAF Museum London (2010)
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| Type | Anti-ship missile / Guided bomb |
| Place of origin | Nazi Germany |
| Service history | |
| In service | 1943–44 |
| Used by | Nazi Germany (Luftwaffe) |
| Wars | World War II |
| Production history | |
| Designer | Max Kramer |
| Manufacturer | Ruhrstahl |
| Specifications | |
| Weight | 1,362 kg (3,000 lb)[1] |
| Length | 3.32 m (11 ft) |
| Width | 1.40 m (5 ft) |
| Diameter | 85.3 cm (2 ft 8 in) |
| Warhead | amatol explosive, armour-piercing |
| Warhead weight | 320 kg (705 lb) |
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Operational
range |
5 km (3.1 mi) |
| Speed | 343 m/s (1,235 km/h or 770 mph) |
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Guidance
system |
Kehl-Straßburg FuG 203/230; MCLOS |
Fritz X was the most common name for a German guided anti-ship glide bomb used during World War II. Fritz X was the world's first precision guided weapon ever deployed in combat, and the first to sink a ship in combat. Fritz X was a nickname used both by Allied and Luftwaffe personnel. Alternate names include Ruhrstahl SD 1400 X, Kramer X-1, PC 1400X or FX 1400 (the latter, along with the unguided PC 1400 ordnance's Fritz nickname, is the origin for the name "Fritz X"). Along with the USAAF's similar Azon weapon of the same period in World War II, it is one of the precursors of today's anti-ship missiles and precision-guided weapons.
Contents
History
The Fritz X was a further development of the armour-piercing high-explosive bomb PC 1400 (Panzersprengbombe, Cylindrisch 1400 kg[Note 1]) and itself bearing the nickname Fritz. It was a penetration weapon intended to be used against heavily protected targets such as heavy cruisers and battleships. It was given a more aerodynamic nose, four stub wings, and a box shaped tail unit, consisting of a roughly 12-sided annular set of fixed surfaces, and a cruciform tail with thick surfaces within the annulus, which themselves contained the Fritz X's aerodynamic controls. The Luftwaffe recognized the difficulty of hitting moving ships during the Spanish Civil War.[2] Dipl. engineer Max Kramer, who worked at the DVL, had been experimenting since 1938 with remote-controlled free-falling 250 kg bombs, and in 1939 fitted radio-controlled spoilers.[3] In 1940, Ruhrstahl was invited to join the development, since they already had experience in the development and production of unguided bombs.[4]
Fritz X was guided by a Kehl-Strasbourg radio control link, which sent signals to the movable spoilers in the thick vertical and horizontal tail fin surfaces, within the annular tailfin structure. The receiver's antennas were aerodynamically integrated into the trailing edge of the annular surfaces of the tailfin, within a quartet of "bulged" sections in the trailing edge.[5] This design feature of the Fritz X's FuG 230 Straßburg receiver installation is not entirely unlike the Azon, which had its own receiving antennas placed in the quartet of diagonal struts bracing the fixed sections of its tailfins.
Minimum launch height was 4,000 m (13,000 ft) (5,500 m (18,000 ft) was preferred) and a range of 5 km (3.1 mi; 2.7 nmi) was necessary.[6] As it was an MCLOS-guidance ordnance design, the operator had to keep the bomb in sight at all times (a tail flare was provided, as with the Azon, to assist the operator in tracking the weapon) and the control aircraft had to hold course,[6] which made evading gunfire or fighters impossible.
Approximately 1400 examples, including trial models, were produced.[6]
Control setup
The Fritz X possessed a spoiler-based control setup on its tailfin unit, using three sets of aerodynamic control spoiler systems, with two of them giving the ordnance control in both the pitch and yaw axes, differentially operating and constantly oscillating rapidly under direct control from the Kehl-Straßburg radio control link. The roll control setup, operating autonomously and not under control from the deploying aircraft, similarly oscillated to those under the externally controlled sets and were located on the outboard sections of the horizontal tailfin surfaces within the annular set of outer tailfin surfaces. These were like the American Azon ordnance's own "aileron" control surfaces in their purpose, commanded by an internal gyroscope in the tail's central housing in both the Azon and Fritz X, to keep the ordnance level during its trajectory. The inboard set of spoiler surfaces in the tailfin's horizontal surfaces, which used a set of wing fence-like flat surfaces for airflow separation from the autonomous roll control spoilers, controlled the pitch angle after release and were controlled by the radio control link, giving the Fritz X's bombardier in the deploying aircraft the ability to control the range of the drop, a capability that the Azon ordnance did not have. The yaw control spoilers housed in the vertical tailfin surfaces were also under control through the radio link, and had similar "fence" surfaces to guide airflow over them. All three spoiler surface sets, when deployed, barely protruded from the surface during operation, with the pair of spoiler systems under external control having a degree of "proportionality" in their operation by varying the "dwell time" spent on one side or the other during their rapid rate of oscillation from side to side when a control input was sent to them.[7]
Combat service
The only Luftwaffe unit to deploy the Fritz X was Gruppe III of Kampfgeschwader 100 Wiking (Viking), designated III./KG 100, the bomber wing itself evolved as the larger-sized descendent of the earlier Kampfgruppe 100 unit in mid-December 1941. This unit employed the medium range Dornier Do 217K-2 bomber on almost all of its attack missions, though in a few cases toward the end of its deployment history, Dornier Do 217K-3 and M-11 variants were also used. Fritz X had been initially tested with a Heinkel He 111 bomber, although it was never taken into combat by this aircraft. A few special variants of the troublesome Heinkel He 177A Greif long-range bomber were equipped with the Kehl transmitter and proper bombracks to carry Fritz X and it is thought that this combination might have seen limited combat service, at least with the combinations known to have been involved in test drops. It was found the launch aircraft had to "toss" the bomb slightly, climbing and then descending, to keep it in view ahead.[6]
Fritz X was first deployed on 21 July 1943 in a raid on Augusta harbour in Sicily. A number of additional attacks around Sicily and Messina followed, though no confirmed hits were made and it appears the Allies were unaware that the large bombs being dropped were radio-guided weapons.[8]
On 9 September, the Luftwaffe achieved their greatest success with the weapon. After Pietro Badoglio publicly announced the Italian armistice with the Allies on 8 September 1943, the Italian fleet had steamed out from La Spezia and headed to Tunisia. To prevent the ships from falling into Allied hands, six Do 217K-2s from III. Gruppe of KG 100 (III/KG 100) took off, each carrying a single Fritz X. The Italian battleship Roma, flagship of the Italian fleet, received two hits and one near miss, and sank after her magazines exploded. 1,255 men, including Admiral Carlo Bergamini, died. Her sister ship, Italia, was also damaged but reached Tunisia.[9]
The American light cruiser Savannah was hit by Fritz Xs at 10:00 on 11 September 1943 during the invasion of Salerno, and was forced to retire to the United States for repairs. A single Fritz X passed through the roof of "C" turret and killed the turret crew and a damage control party when it exploded in the lower ammunition handling room. The blast tore a large hole in the ship's bottom, opened a seam in her side, and blew out all fires in her boiler rooms. Savannah lay dead in the water with her forecastle nearly awash, and eight hours elapsed before her boilers were relit for the Savannah to get underway for Malta.[9]
Savannah's sister ship, USS Philadelphia, had been targeted earlier that same morning. While it is often believed the ship was hit by a Fritz X, in fact the bomb just missed the ship, exploding about 15 meters away. Damage was minimal.[10]
The Royal Navy's light cruiser HMS Uganda was hit by a Fritz X off Salerno at 1440 on 13 September. The Fritz X passed through seven decks and straight through her keel, exploding underwater just under the keel. The concussive shock of the Fritz X's underwater detonation close to Uganda's hull extinguished all her boiler fires, and resulted in sixteen men being killed, with Uganda taking on 1,300 tons of water. The Uganda was towed to Malta for repairs.
Two merchant ships may have been hit by Fritz X bombs at Salerno, though the evidence is uncertain. SS Bushrod Washington was hit by a glide bomb, either a Fritz X or a Hs 293, on 14 September while offloading a cargo of gasoline.[11] SS James W. Marshall was set afire by a conventional bomb, Hs 293 or Fritz X on 15 September. As with the Bushrod Washington, the nature of the weapon that damaged James W. Marshall is uncertain. A witness aboard a ship nearby, Joseph A. Yannacci, attributes the attack to Ju 87 "Stuka" dive bombers, which were too small to carry glide bombs. While an attack with a Fritz X cannot be ruled out, there is at least an equal case to suggest that, if a glide bomb was involved, the culprit was actually a Hs 293 from II./KG 100; Luftwaffe records show that II./KG 100, armed only with Hs 293 glide bombs, was active over Salerno that day.
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KG 100 achieved another success with Fritz X while the British battleship Warspite was providing gunfire support at Salerno on 16 September. One bomb penetrated six decks before exploding in number 4 boiler room. This explosion put out all fires and blew out the double bottom. A second Fritz X near-missed Warspite, holing her at the waterline. She took on a total of 5,000 tonnes of water and lost steam (and thus all power, both to the ship herself and to all her systems), but casualties were few. She was towed to Malta by tugs Hopi and Moreno, then returned to Britain via Gibraltar and was out of action for nearly 9 months; she was never completely repaired, but returned to action to bombard Normandy during Operation Overlord.[9]
The last Fritz X attack at Salerno again lightly damaged the US light cruiser Philadelphia with two near misses on 17 September. This attack is sometimes reported as taking place on 18 September. However, according to US Navy records, the cruiser Philadelphia departed Salerno the night of 17/18 September. Moreover, according to Luftwaffe records, III./KG 100, the Luftwaffe unit armed with the Fritz X, flew its last mission on 17 September. Other ships damaged by Fritz-X included Dutch sloop Flores and destroyer Loyal.
Electronic countermeasures
The control system used for Fritz X relied on radio contact between the bomb and the guidance unit, and was susceptible to electronic countermeasures. After the initial attacks in August 1943 the Allies went to considerable effort to develop jamming devices. These were first deployed in late September 1943, too late for Salerno. The system met with some success, though it proved cumbersome and easily overwhelmed if large numbers of weapons were deployed simultaneously.
In early 1944 the UK began to deploy a different system, which automatically defeated the ordnance's receiver regardless of which radio frequency had been selected for an individual missile.
By the time of the Normandy landings, a combination of Allied air supremacy (keeping the Luftwaffe's bombers at bay) and ship-mounted jammers meant Fritz X had no significant effect on the invasion fleet. Some accounts report the Norwegian destroyer Svenner was hit by Fritz X at dawn on D-Day. This is unlikely as III./KG 100, the unit which carried the Fritz X into combat, had largely been re-equipped with the Hs 293 by that time for its anti-ship missions, and the attack on Svenner occurred before the first glide bombers launched their assaults on the Normandy beaches.
Fritz X is often incorrectly listed as having been responsible for the loss of the hospital ship HMHS Newfoundland at Salerno as well as the destroyer HMS Janus and the light cruiser HMS Spartan at Anzio. However, these ships were hit by Hs 293s, as demonstrated by analysis of Luftwaffe records regarding the deployment of III./KG 100,[8] the nature of the damage inflicted,[12] as well as reports from witnesses.[13] (In the case of Janus, either an Hs 293 or a conventional torpedo was responsible.)
The closest Allied equivalent to Fritz X was the American VB-1 Azon.
Combat procedure
Fritz-X was steered by the bombardier in the launching aircraft over a radio link between the aircraft's Kehl transmitter and the weapon's Straßburg receiver. The bombardier had to be able to see the target at all times, and like the Azon ordnance, the Fritz-X bomb had a flare in the tail so it could be seen from the controlling aircraft for its MCLOS-form guidance to control it properly. The disadvantage with this — in comparison to fully autonomous-guidance glide bombs like the operational U.S. Navy's Bat radar-homing glide bomb, used against Japan in 1944-45 — were that the aircraft had to be flown toward the target on a steady course and that as the missile neared its target it became possible to misguide by jamming its radio channel.
Unlike the Hs 293, which was deployed against merchant ships and light escorting warships, Fritz X was intended to be used against armoured ships such as heavy cruisers and battleships. The minimum release height was 4,000 metres (13,000 ft) and a release height of 5,500 metres (18,000 ft) was preferred assuming adequate visibility. The Fritz X had to be released at least 5 kilometres (3 mi) from the target. The plane had to decelerate upon bomb release so momentum would carry the bomb in front of the aircraft where the bombardier could see and guide it. This deceleration was achieved by making a steep climb and then levelling out. The bombardier could make a maximum correction of 500 metres (1,600 ft) in range and 350 metres (1,150 ft) in bearing. The bomber was vulnerable to fighter attack as well as ship-based air defense weapons while maintaining a slow, steady course so the bombardier could maintain visual contact to guide the bomb.[9] When working properly, the missile was able to pierce 130 mm (5.1 in)[3] of armor.
Accuracy is the main reason for developing a weapon system of this kind, rather than continuing to use so-called "dumb bombs". A skilled bombardier could manage to guide 50% of the bombs to within a 15 m (50 ft) radius of the aiming point, and about 90% hit within a 30 m (100 ft) radius. (Other sources say 60% hits within 4.6 metre radius.)[14]
Operators
See also
- List of World War II guided missiles of Germany
- Kramer X4- Max Kramer's air-to-air guided missile
- Ohka
- Project Pigeon
- Gargoyle
- GB-4
- GB-8
References
Explanatory notes
- ↑ German Wikipedia's WW II PC-series bomb specifications, German for "armor-piercing bomb, cylindrical".
Citations
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Fitzsimons, Bernard, ed. "Fritz-X", in The Illustrated Encyclopedia of 20th Century Weapons and Warfare (London: Phoebus, 1978), Volume 10, p.1037.
- ↑ 3.0 3.1 Fitzsimons, "Fritz-X", p.1037.
- ↑ Christopher, John. The Race for Hitler's X-Planes (The Mill, Gloucestershire: History Press, 2013), p.134.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 6.0 6.1 6.2 6.3 Christopher, p.134.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 8.0 8.1 RL 10/493: Tätigkeitsbericht über Einsatzperiode das K.G. 100 mit F.K. in der Zeit von 12.7.43 - 30.4.44. [Activity Report of Missions of KG 100 with Guided Weapons in the Period from 12.07.43 to 30.04.44.]
- ↑ 9.0 9.1 9.2 9.3 Bogart, Charles H. "German Remotely Piloted Bombs" United States Naval Institute Proceedings November 1976 pp.62-68
- ↑ See Barbara Tomblin's With Utmost Spirit: Allied Naval Operations in the Mediterranean, 1942-45 (Lexington: The University Press of Kentucky, 2004), 273. Tomblin cites as her source the original action reports filed by the Philadelphia which clearly indicate the bomb missed. Had a Fritz X hit Philadelphia, the ship would have severely damaged or sunk. The erroneous notion that Philadelphia was hit emerged from an article in Proceedings in 1976 by Charles Bogart, and has been repeated since.
- ↑ It remains uncertain today the exact cause of the loss of Bushrod Washington. Most accounts credit the attack to an Hs 293 launched from II./KG 100, and it is known from Luftwaffe records that II./KG 100 was active above Salerno around that time, flying nine missions from 9 September to 30 September, three of them during the day. Eyewitness descriptions indicate the side of the ship was blown out, more consistent with an Hs 293 attack than a Fritz X. The situation if further confused because original reports, possibly contrived to avoid mention of the glide bombs in accordance with U.S. policy at the time, suggest two conventional 250 kg bombs dropped from dive bombers were responsible.
- ↑ DNC 6/R.322: "Report by the Admiralty Department of Naval Construction: Board of Enquiry 9 February 1944 in Naples." This is the official report on the loss of Spartan and identifies the Hs 293 as the weapon used; the nature of the damage, described in detail, is consistent with an Hs 293 and not with Fritz X.
- ↑ See for example Captain John Eric Wilson's first-hand account as presented in "Sinking of the Hospital Ship SS Newfoundland", Newfoundland Times, September 1994, pp.9-15. The Newfoundland Times is the semi-annual publication of the HMS Newfoundland Association, formed by veterans of the cruiser (not hospital ship) HMS Newfoundland.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
External links
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Wikimedia Commons has media related to Fritz-X. |
- USAAF-captured (1946) German wartime film on details of the Fritz X bomb
- The Dawn of the Smart Bomb
- German guided weapons of World War II
- Allied & German guided weapons of World War II
- Smithsonian National Air and Space Museum
- National Museum of the U.S. Air Force
- Ruhrstahl AG Fritz-X - Royal Air Force Museum, Cosford (UK)
- "How Radio-Controlled Bombs Were Jammed", C.I.C. (Combat Information Center), U.S. Office of the Chief of Naval Operations, Dec. 1945.
