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List of World War II torpedoes of Germany

April 12, 2024

List of World War II Kriegsmarine torpedoes edit

Designation Codename Propulsion Dimensions - dia./length Range (speed) Warhead
(pistol) 		Notes
KM# Type
TI G7a Wet heater 533.4 mm / 7163 mm 120 hm (30kn 'NS') / 75hm (40 kn 'WS') / 50 hm (44 kn 'SS') Ka (Pi1), Kc (Pi3) The standard torpedo prior to World War II, used by all platforms during World War II: surface combatants (Kreuzer, Zerstörer, T-Boote, S-Boote) and U-boats at night. Nicknamed "ato" by German crews (i.e. atem- or air-torpedo, indicating the steam propulsion) to distinguish it from the G7e (electric torpedoes). 44 kn speed was only used for S-Boote. According to certain sources only used from surface vessels during the last part of World War II.
TI Fat I G7a Wet heater 533.4 mm / 7163 mm 120hm (30 kn) / 75 hm (40 kn) / 50 hm (44 kn) Ka (Pi1), Kc (Pi3) Standard TI with Fat program-control type I (for security-reasons only used by night).
TI Lut I G7a Wet heater 533.4 mm / 7163 mm 120 hm (30 kn) / 75 hm (40 kn) / 50 hm (44 kn) Ka (Pi1), Kc (Pi3) Standard TI with Lut program-control type I.
TI Lut II G7a Wet heater 533.4 mm / 7163 mm 120hm (30kn) / 75 hm (40 kn) / 50 hm (44 kn) Ka (Pi1), Kc (Pi3) Standard TI with Lut program-control type II.
TIü G7a Wet heater 533.4 mm / 7163 mm <120 hm (30 kn) / <75 hm (40 kn) Exercise head only (light) Torpedo dedicated for educational/training purposes with Schulboote at U-Flotillen. It had restricted settings on depth mechanism, a light (empty) exercise head and other minor modifications, to ensure positive buoyancy at the end of the run and reduced stress on the engine (=less damages and loss of torpedoes, i.e. achieving a higher number of shots).
TIü Lut II G7a Wet heater 533.4 mm / 7163 mm <120 hm (30 kn) / <75hm (40 kn) Exercise head only (light) TIü with Lut program-control type II.
TII G7e Electric, lead-acid battery (13T) 533.4mm / 7163mm 50 hm (30 kn) Ka (Pi1) Faulty pistols. Nicknamed "eto" (electric torpedo) by German crews for easy distinguishing from the G7a ("ato" air-driven torpedo). Could not be fitted with Fat or Lut due to its short range.
TIII G7e Electric, lead-acid (13T battery) 534,6 mm / 7163 mm 50 hm (30 kn) Kb (Pi2) Improved pistols and batteries (cable-guide from the battery-chamber to the warhead for powering magnetic pistols). Nicknamed "eto" (electric torpedo) by German crews for easy distinguishing from the G7a ("ato" air-driven torpedo).
TIII Fat II G7e Electric, lead-acid (13T battery) 534,6 mm / 7163 mm 50 hm (30 kn) Kb (Pi2) TIII with Fat program-control type II.
TIIIa Fat II G7e Electric, lead-acid (17T battery) 534,6 mm / 7163 mm 75 hm (30 kn) Ka (Pi1), Kb (Pi2) TIII with improved battery and Fat program-control type II.
TIIIa Lut I G7e Electric, lead-acid (17T battery) 534,6 mm / 7163 mm 75 hm (30 kn) Ka (Pi1), Kb (Pi2) TIII with improved battery and Lut program-control type I.
TIIIa Lut II G7e Electric, lead-acid (17T battery) 534,6 mm / 7163 mm 75 hm (30 kn) Ka (Pi1), Kb (Pi2) TIII with improved battery and Lut program-control type II.
TIIIb G7e Electric, lead-acid (13T battery) 534,6 mm / 7163 mm 40 hm (18.5 n) Kb2 (Pi2f) TIII with only one battery compartment to reduce weight (special adaptation for use on Marder midget submarine).
TIIIc G7e Electric, lead-acid (13T battery) 534,6 mm / 7163 mm 40 hm (18.5 kn) Kb2 (Pi2f) Improved TIIIb (special adaptation for use on Biber, Hecht, Molch and Seehund midget submarines).
TIIId G7e Dackel Electric, lead-acid (17T 210 battery) 534,6 mm / 11,000 mm ca. 480 hm (9 kn) Kb2 (Pi1d) Special long-range anti-invasion torpedo with a variant of the Lut II program steering. Launched from S-Boote and barges (it saw operational use against the allied invasion-fleet in Normandy).
TIIIe G7e Kreuzotter Electric, lead-acid (13T Special battery) 534,6 mm / 7163 mm 75 hm (20 kn) Ke1 (Pi4c) TIII specially adapted for use on Molch and Seehund midget submarines.
TIV G7es Falke Electric, lead-acid 534,6 mm / 7163 mm 75 hm (20 kn) Kd (Pi4a) Simple acoustic homing. Only operational for a brief period before being replaced by the improved TV.
TV G7es Zaunkönig Electric, lead-acid 534,6 mm / 7163 mm 57 hm (24 kn) Ke1 (Pi4c) Acoustic homing (three different type of seekers). Nicknamed "GNAT" by the allies (acronym from "German Naval Acoustic Torpedo). Generally regarded as the best German torpedo of World War II (between 5000 and 6000 launched, with a reported hit-rate of approximately 53%, a number that was considerably reduced after post-war analysis). TV torpedoes were modified to TXI from fall 1944.
TVa G7es Zaunkönig Electric, lead-acid 534,6mm / 7163 mm 80 hm (21.5 kn) Ke1 (Pi4d) TV specially adapted for use on S-Boote (end-of-run detonation, reduced speed, longer range and different depth-mechanism).
TVb G7es Zaunkönig Electric, lead-acid 534.6 mm / 7163 mm 80 hm (21,5 kn) Ke1 (Pi4c) TVa adapted for use as an anti U-boat torpedo.
TVI G7es Electric, lead-acid 534,6 mm / 7163 mm 75 hm (30 kn) Kf (Pi6) TIIIa with minor changes (probably with Lut II) and a special warhead which was never fielded.
TVII G7ut Steinbutt Walter turbine 534,6 mm / ? mm 80 hm (45 kn) Kb (Pi2), Kf (Pi6) Ingolin (peroxide)/dekalin/helman/water fueled BO VI-turbine. Combustion-chamber arranged horizontally in the longitudinal axis. Approximately 100 torpedoes produced, but never fielded - mainly due to several problems with both pistol and start ballistics.
TVIII G7ut Steinbarsch Walter turbine 534.6mm / ?mm 80hm (45kn) Kb (Pi2), Kf (Pi6) Development of the TVII, with different internal organisation of the various mechanisms. More than 100 torpedoes produced. Was due to be fielded in April 1945, despite several problems during testing.
TIX G5ut Goldbutt Walter turbine 534.6 mm / 5490 mm 40 hm (45 kn) "Goldfisch"-variant planned for the German "Kleinst-Uboote". As development of the U-boat ended, so did the program for the TIX.
TX G7ef NYK Spinne Electric, lead-acid (13T battery) 534.6 mm / 7163 mm 50hm (30 kn) Ka (Pi1) Developed from the TII torpedo. Wire guided by means of visual sight from a command bunker / observation site. Intended for coastal defence and use from beach-batteries (wagenbatterie), later evolved to also include special harbour installations (molenbatterie) and mobile launchers (schiffbatterie). Only 200 torpedoes were built (gerät 43d), originally for 35 "spinne sperrbatterie" to be established on the French channel- and Mediterranean coastline from July 1944. Some batteries were also established in Belgium, and after the allied invasion in July 1944 most of the French batteries were moved to the Netherlands, Germany and Denmark (85 TX torpedoes were located in 14 Danish batteries after the war).
TXa G7ef NYK Spinne Electric, lead-acid (13T battery) 534.6 mm / 7163 mm 50 hm (30kn) Ka (Pi1) A new version (gerät 43 cp) of the TX tested for use on midget submarines (Marder/ Molch/ Seehund) with good results. It was planned for operational use on the Seehund from August 1945.
TXI G7es Zaunkönig II Electric, lead-acid 534.6 mm / 7163 mm 57 hm (24 kn) Ke1 (Pi4c) TV with improved acoustic homing and depth mechanism. Operational. About 90 torpedoes in stock by September 1944 (a combination of new torpedoes and the ongoing upgrade of existing TV), but no certain record of usage during the war (five TXI torpedoes were recovered from the U-534, now on display in Birkenhead, UK. Four of the TXIs were picked for parts and blown up. Only one torpedo remains on display with the U-boat).
TXII G5e Electric, lead-acid (9T battery) 534.6mm / 5550 mm 30 hm (30 kn) Kb (Pi2) Short torpedo developed for the smaller type XVII coastal submarines. Was intended as a temporary solution until the ingolin-torpedoes were ready for operational use, but never fielded.
TXIII G7ut K-Butt Walter turbine 534.6 mm / 7163 mm 30 hm (45 kn) Kb2 (Pi2) Ingolin/dekalin/helman/water fueled BO VI-turbine. Less fuel than the "Goldbutt", but 7 m length. Experimental development for the Seehund midget submarine. With sinker-mechanism. Approximately 60 torpedoes produced, planned for fielding by end of April 1945.
TXIV G7a Wet heater 534.6 mm (527 for airtank) / 7163 mm 25 hm (34 kn) Kc (Pi3) TI with changed buoyancy (max air pressure reduced from 200 to 100 kg/cm^2) developed as a replacement for TIIIc (failing batteries) for use on the Seehund midget submarine. With sinker-mechanism. Never fielded.
G7es Lerche Electric (13T 210 Special battery) 534.6 mm / 7163 mm unknown Ke1 (Pi4c, TZ5) Development of the TV and TX with both active acoustic seeker and wire guidance. An operator in an U-boat could listen to the signal from the seeker and manually control the steering. Never fielded.
G7t Sauerstoff-turbine 534.6 mm / 7163 mm unknown unknown (TZ2b, TZ5) Experimental development of the oxygen-turbine. Dropped in favour of the ingolin-engines.
G7m Kreismotor 534.6 mm / 7163 mm 270 hm (40 kn) / 180hm (48kn) unknown (TZ2b, TZ6) Experimental. Gasoline and compressed oxygen as fuel. Development was dropped in favour of the ingolin-engines.
G7p Electric, with primary battery 91.5hm (30kn) / 36.5 hm (40 kn) Experimental, using two primary batteries (magnesium-carbon and zinc-leadoxide) for propulsion. It was proposed to get very good speed and range, but development ended due to lack of resources.
M5 Wet heater 736.6 mm / 4880 mm unknown (40 kn) unknown Experimental torpedo developed for coastal defence with a very large explosive charge and long range. Based on the TI with a 6-cylinder engine and only one speed-setting. 14 torpedoes built with 6 spare engines. Testing proved numerous "bottom-runners" due to failure of the launch and general poor quality of design and production. Two torpedoes were recovered and prepared for transport to the U.S. Ordnance Investigation Laboratory as museum pieces, but whether this was executed is doubtful.
G7es Geier I and II Electric 534.6 mm / 7163 mm unknown Active sonar homing, experimental. Similar to the TV. Development-program with Luftwaffe, which ended up going for the "Pfau" instead. Otherwise successful design, which led to planning of a further development ("Geier III").
LTIm F5b Wet heater 450 mm / 5550 mm 25 hm (40 kn) GK3a (Pi51) Luftwaffe F5b LTI torpedo adapted for use on Kriegsmarine Kleinstschnellboote.
G7as Wet heater Acoustic homing, not fielded
G7u Klippfisch Wet heater Walter turbine 95 hm (40 kn) Experimental intermediate model for the G7ut development (never planned for production). Ingolin/dekalin/Helman/Water-propulsion, using the aft-section and engine from the TI.
G7ut Schildbutt Walter turbine with seawater injection 140 hm (45 kn) / 180 hm (40 kn) Experimental. Ingolin/dekalin/Helman/Water pressure-injection fueled turbine, later developed with the Steinwal-BO VI turbine.
Zaunbutt Ingolin Walter turbine Acoustic seeker from the TV combined with the ingolin-propulsion. Proposed shorter range than the Steinbutt, due to losing space for fuel in favour of electronics for the seeker. The project was in model-testing phase, when all plans and models were destroyed in a bombing raid. The project was not continued.
Wal / Steinwal Ingolin Walter turbine 192 hm (45 kn) Experimental. Ingolin/dekalin/water pumped to the motor combined with Helman pressure-conveyor (BO VI-turbine). Development nearly finished by end of the war.
G7f NY Electric 12.5 hm (30 kn) Experimental surface-running torpedo remotely controlled by radio (several solutions were investigated, including control from airplane and shore-based relay-stations). Hexagon-shaped hull with hydrofoil wings and rocket-propulsion.
G7m Closed-circuit propulsion 180 hm (48 kn) Considered as replacement for both steam and electric propulsion. Never fielded.
G7d Oxygen-fueled wet-heater engine 120 hm (45 kn) In early stages of development by April 1945. German oxygen-torpedo of similar design as the Japanese Type 93 'Long Lance'. Based on the G7a(TI) (reusing the airtank, the waterchamber and the enginecompartment) combined with the turbine from the G7ut. Expected to have improved performance over the TI, with almost no bubbletrack. Also it would have superior safety for handling/storage on board, as well as less loss of energy over time in storage, compared to the ingolin-torpedoes.
G7ur Hecht Walter rocket Experimental
G7ur Mondfisch Walter rocket 700 hm (45 kn) Experimental. Ingolin/dekalin/floran-fueled rocket-engine (BO VI-Turbine). Transverse combustion-chamber.
G5ut Goldfisch Walter turbine 534.6 mm / 5490 mm 34 hm (45 kn) 5 m version of the "Steinfisch". Planned torpedo for the "Spezial-Uboote", with development ending as the U-boats were never realized.
Electric, lead-acid unknown unknown Two experimental torpedo models using the TIII engine, but replacing the conventional propellers with "schlagruder" (oscillating fins, similar to the tail of a whale). The hull was of an unconventional "manta" design, which had several benefits: Less drag in the water. Potential for much higher payload (a total weight of 4 tonnes using the TIII engine, compared to the 1.5 tonne total weight of the TIII). Much more stable travel compared to the traditional tube-formed torpedo hulls. One test model build.
Ackermann unknown unknown unknown Wake-homing torpedo with acoustic/pressure seeker. Only theoretic planning.
Fasan unknown unknown unknown Active acoustic-seeker with Lut-program steering. Lut program active until a ships wake is crossed/detected, upon the acoustic homing would be triggered. Only at planning-stage.
Ibis unknown unknown unknown Active wake-homing acoustic-seeker. Project was dropped in favour of the "Fasan".
Märchen unknown unknown unknown Magnetic seeker. Only theoretic planning.
Taube unknown unknown unknown Low-frequency, passive acoustic seeker. Only theoretical planning.
G7v Wet heater 500 mm / 7083 mm 120 hm (28,5 kn) Older torpedo developed in the early 1920s (prequel for the 21-inch G7a) which saw limited use during World War II. It was used at least until October 1944 in the Ofotfiord-batteries outside Narvik, and most likely for the rest of the war on some "schwimmende" batteries protecting the major German battleships in their bases in northern Norway.
G/250 Wet heater 450 mm / 7083 mm 60 hm (27 kn) / 25 hm (36 kn) Older Whitehead-torpedo (developed at the end of WW1), which saw limited use during World War II. For instance, it replaced older Norwegian torpedoes at two shore torpedo batteries on the west coast of Norway during the war (original torpedoes often failed due to conditions at the site, as well as a wish for an increased explosive charge).
F5 Wet heater 450 mm / 6505 mm 15 hm (45 kn) Norwegian 45 cm torpedoes (beutewaffe) used at certain shore-based torpedo batteries in Norway.

Kriegsmarine torpedo designation system edit

The first letter indicates the diameter:

  • G = 53 cm (21 in)
  • F = 45 cm (17.7 in)
  • H = 60 cm (23.7 in)
  • M = 75 cm (30 in)

The number indicates the approximate length (for example, the length of the TI is 7163 mm):

  • 7 = 7 m
  • 6 = 6 m
  • 5 = 5 m

Next letter(s) indicates specific features regarding propulsion and control:

  • a = Atem, i.e. Pressluft/Dampfgemisch-Antrieb (pressurized air/steam - "wetheater" - engine)
  • e = Elektrischer Antrieb (electric engine)
  • f = Fernlenkung (remote control by radio or cable)
  • d = Sauerstoff/Dampfgemisch-Antrieb (oxygen/steam engine)
  • p = Primärbatterie-Antrieb (primary battery propulsion)
  • m = Verbrennungsmaschine mit Kreislaufverfahren (combustion engine recirculating air)
  • u = Sauerstoffträger Ingolin spurenfreier Antrieb (oxygen/steam engine with hydrogen peroxide as source for air, and no exposing "bubbletrack")
  • x = Torpedo mit 3-Achsen Steuerung (3-axes control)
  • r = Raketen- oder Düsenantrieb (rocket- or jet propulsion)
  • s = Schall, Torpedo mit akustischen Suchkopf (acoustic seeker)
  • t = Turbinenantrieb (turbine-engine)

"r" and "t" were only used with "u" to further denote the features of the ingolin-torpedoes. Some sources claim that "s" only was used with "a" to denote the development of G7a with acoustic seeker-capability; however, it was no doubt used for the electric torpedoes with acoustic seekers (as "es" or just "s").

When the torpedo reached production status and was fielded (i.e. for operational use), Kriegsmarine gave it a short designation "T", or "Torpedonummer", with the number given in Roman lettering (TI, TII, TIII, TIV, etc.). For different versions of the main torpedo, a small Arabic letter was added (for example TIIId, TVa etc.) denoting changes from the main design.

Warheads edit

Warheads were designated with the letter "K" (K = short for Kopf, meaning "head") and a small Arabic letter, with an additional number denoting variants of the head (for instance changing the material composition from bronze to steel, adding/removing spants during the course of the war or the method of installing the explosives). Examples: Ka, Ka1, Kb, Kb1, etc.

The explosive charge of warheads in German torpedoes during WW2, were different compositions of the Schießwolle (SW) that consisted mainly of a mixture of Trinitrotoluene (TNT) and Hexanitrodiphenylamin (HND):

  • Schießwolle 18: 60% Trinitrotoluol, 24% Hexanitrodiphenylamin, 16% Aluminumpowder
  • Schießwolle 36: 67% Trinitrotoluol, 8% Hexanitrodiphenylamin and 25% Aluminumpowder
  • Schießwolle 39: 45% Trinitrotoluol, 5% Hexanitrodiphenylamin, 20% Aluminumpowder, 30% Ammonium Nitrate
  • Schießwolle 39a: 50% Trinitrotoluol, 10% Hexanitrodiphenylamin, 35% Aluminumpowder, 5% Ammonium Nitrate
  • Schießwolle xx (unknown): 0.6% Trinitrotoluol, 40% Aluminumpowder, 31.4% Ammonium Nitrate, 5.9% Sodium Nitrate, 2.3% Potassium Nitrate, 9.7% Cyclonite, 10.1% Ethylene Diamine Dinitrate

A total of 41 different types of explosive charges were used in German underwater ordnance, all given a "S"-number (1-41) for identification (only those relevant for torpedoes are listed here):

  • S1 = SW 18 (solid consistency)
  • S2 = SW 36 (solid consistency)
  • S3 = SW 39 (solid consistency)
  • S4 = Combination of S2 and S3 (solid consistency)
  • S5 = Combination of S1 and S3 (solid consistency)
  • S16 = SW xx (described as a "lumpy" consistency)
  • S17 = SW 39a (solid consistency)
  • S18 = Combination of S16 and S17 (easy liquefiable consistency)

List of Kriegsmarine warheads with weight/type of explosive charge:

  • Type Ka: 295 kg/S2 (pre-WW2 head, not produced after ca 1941)
  • Type Ka 1: 297 kg/S3 or S4 (in service from June 1942 to August 1943)
  • Type Ka 2: 293 kg/S3, S4 or S18 (in service from August 1943)
  • Type Kb: 282 kg/S2 or S18 (in service from September 1942)
  • Type Kb 1: 282 kg/S18 (in service from February 1944)
  • Type Kc: 260 kg/S2 (in service from March 1943)
  • Type Kc 1: 256 kg/S2 or S18 (in service from October 1943)
  • Type Kc 2: 256 kg/S18 (in service from May 1944)
  • Type Ke: 274 kg/S2 (in service from July 1943)
  • Type Ke 1: 274 kg/S2 or S18 (in service from February 1944)
  • Type Kf: Unknown weight, but probably similar to the type Ke/S18 (in service from April 1944)

Pistols edit

Pistols used the "Pi" designations to begin with (Pi = short for pistole). The early models were named according to function and/or torpedo type like "PiG7H" or "PiG7A-MZ", but this was later replaced with a simple system of numbers, like "Pi1", "Pi2" etc.

To indicate variants within the main design, a small Latin letter was added after the number, like "Pi1a", "Pi1b" etc.

At some point, "Pi" was dropped for pistols with combination of mechanical (direct hit) and magnetic (influence) mechanisms, to the "TZ" designation (TZ = Torpedo-Zündeinrichtung). For example, the mechanical mechanism from the "Pi1" pistol combined with the magnetic mechanism from "Pi2" became the "TZ2".

The main booster charge used in German pistols was Pentrite, typically 300 g.

The following torpedopistols reached operational status with Kriegsmarine during WW2:

  • Pi G7A-AZ: Mechanical igniter with short whiskers (replaced by Pi1)
  • Pi G7A-MZ: Combined mechanical and (faulty) magnetic igniter (replaced by Pi2)
  • Pi Typ 3F (later renamed Pi40): Copy of the British Type 3F pistol
  • Pi G7H (later renamed Pi1): Mechanical igniter - most common pistol used besides Pi2
  • Pi1a: Pi1 with netcutter
  • Pi1b: Mechanical igniter with pendulum, rather than whiskers (not successful)
  • Pi1c: Improved Pi1a
  • Pi1d: Special version of the Pi1c for the TIIId "Dackel" torpedo (waterflap-safety replaced by a manually pulled safetypin, due to the torpedo's extremely low speed)
  • Pi2: Mechanical igniter from Pi1 with an additional magnetic igniter
  • Pi2a: Pi2 with netcutter
  • Pi2c: Special variant of the Pi2a with its own battery for the low-speed TIIIb torpedo
  • Pi2d: Improved variant of the Pi2c for torpedoes with low speed (TIIIb and TIIIc)
  • Pi2e: Variant of the Pi2a with pendulum for the mechanical igniter, used for TIIIb and TIIIc torpedoes
  • Pi2f: Variant of the Pi2d for low-speed TIIIb and TIIIc torpedoes
  • Pi2 EDS: Pi2 with "endstreckendetonierersicherung" - a feature to ensure the torpedo did not detonate if missing the target
  • TZ2: Combination of Pi1 and Pi2 used for torpedoes with low speeds below 30kn
  • Pi3: Italian pistol - similar in function to the Pi2, but a different construction
  • Pi3a: Variant of the Pi3, similar to the Pi1a
  • Pi3c: Pi3 with netcutter
  • PiSic (later renamed TZ3): Italian-constructed passive magnetic igniter combined with the mechanical igniter from the Pi3. Only used for G7a(TI) and G7a(TXIV)
  • TZ3a: Improved German variant of the PiSic.
  • TZ3b: TZ3a with improved induction-coil for the magnetic igniter
  • Pi4: New pistol for heads with front-mounted acoustic seeker – i.e. the TIV, TV and TIX (mounted on top of the head with a pendoulum-based mechanical igniter and a separate active magnetic igniter)
  • Pi4a: Pi4 with improved mechanical igniter
  • Pi4b (also designated Pi DWK): New design of the mechanical igniter by Deutsche Werke Kiel (hence "DKW")
  • Pi4c: Mechanical (pendolum) igniter (only used in the TZ5).
  • Pi4c EDS (later renamed Pi4e): Pi4c with the EDS-function from the Pi2 EDS
  • Pi4d SZE: Pi4c with "selbstzerstörungseinrichtung" - a function to ensure that the torpedo would detonate after missing a target, i.e. the opposite of EDS
  • Pi5 (later renamed TZ5): Combination of Pi4c and a new active magnetic igniter (sender in head, receiver in tail)
  • Pi6: New pistol ready for operational use with the TVI and TVII (ingolin) torpedoes. Based on the Pi3
  • Pi6a: Pi6 improved with parts of the Pi1a
  • TZ6: Mechanical igniter from the Pi6 and a new active magnetic igniter (sender in head, receiver in tail)

Code names edit

Code names were intended to be used only through the development period for security measures. However, in some cases they remained after the torpedo was fielded and had been designated with a "T"-number.

Torpedo pistols, program seeker-systems and other special arrangements also had their own "system" of code names, using the names of birds, fish or animals (for example Pi "Leuchtfisch", GA "Specht", seeker "Storch", control "Viper", target detector "Salamander" etc.). During development, the pistols were often given code names designated by the industrial developer or manufacturer. Generally, these consisted of simple words, syllables, or names associated with the firm or the engineers in charge of the pistol's development (for example Pi "Otto", Pi "Atlas", Pi "Berlin" etc.).

Program steering edit

Program steering was accomplished by a mechanical device (Federapparat) coupled to the torpedo's gyroscope to alter its course in various pattern. Two main types was fielded during WW2: "Fat" and "Lut".

Fat
Flächenabsuchender Torpedo (area searching torpedo), changed the torpedo's course over time so that it ran various patterns. Three versions: Fat I, II and III (Fat III was later redesignated Lut I).
Lut
Lageunabhängiger Torpedo (bearing independent torpedo), changed the torpedo's course to a preset heading directly after launch, so the launching platform could fire torpedoes at targets without changing its own course. Two versions: Lut I and Lut II (+ a special Lut I variant for the TIIId torpedo with a very long initial straight run of 36000 m).

The Fat or Lut mechanisms initiated control of the gyroscope after an initial (preset) straight running distance.

Fat I ("S-shaped" loop-patterns): The initial straight distance could be set from a minimum of 500 m to a maximum of 1500 m. Two loop-patterns were available: "short" and "long", and in addition, there was a choice of right or left turns (i.e. a total of 5 settings on the Fat-mechanism). For "short" loops, the straight distance between turns was 800 m, with a total width of the pattern-search of 1140 m For "long" loops, the straight distance between turns was 1500 m, and a total width of the pattern-search of 1840 m. The turning radius for both patterns was 170 m.

Fat II ("S-shaped loops or circular patterns): The same as Fat I, but with an additional choice for "circular pattern", where the torpedo would run in a circle after the initial straight-run. This was an option primarily used by U-boats against attacking surface-ships that ran a zig-zag pattern hunting the U-boat (the goal was to locate the torpedo's circle-run just ahead of the attacking ship, hoping for a "lucky" hit).

Fat III / Lut I ("zig-zag" pattern): Initial torpedo course could be chosen, so the torpedo platform did not need to change its bearing to an optimal course for torpedo launch. The "Lut-speed" (i.e. the resulting advance-speed of the torpedo, considering the zig-zag pattern) could be chosen, and subsequently, the straight legs between turns would be adjusted accordingly.

Lut II: Same as Lut I, but even slower Lut-speeds could be chosen.

List of World War II Luftwaffe torpedoes edit

Designation Codename Propulsion Dimensions, dia./length Range (speed) Warhead (pistol) Notes
Lw# Type
F5 Wet heater 450mm / 5550mm 30hm (33kn) unknown Copy of the Norwegian F1 "Horten" torpedo. Limited drop-parametres (75kn airspeed/15-20m height)
LT I F5a Wet heater 450mm / 5550mm 26hm (33kn) unknown German development of the Norwegian F1 "Horten" torpedo. Improved drop-parametres (140kn airspeed/50m height)
LT I A F5b Wet heater 449,6mm / 5490mm 30hm (40kn) unknown Improved version of the F5a (increased capacity air tank and higher performance engine).
LT I A1 F5b Wet heater 449,6mm / 5490mm 20hm (40kn) GK1, GK2, GK2a, GK3, GK3a, GK4, GK4a, GK6 (PiF5s, Pi30, Pi30m, P42s, Pi43, Pi45, Pi50, Pi51, Pi52, Pi60) Developed by Kriegsmarine for Luftwaffe. Fielded in 1941. The main German aerial torpedo of World War II, alongside the F5w.
LT I A2 F5b Wet heater 449,6mm / 5490mm 30hm (33kn) GK1, GK2, GK2a, GK3, GK3a, GK4, GK4a, GK6 (PiF5s, Pi30, Pi30m, P42s, Pi43, Pi45, Pi50, Pi51, Pi52, Pi60) Never fielded.
LT I A3 F5b Wet heater 449,6mm / 5490mm 60hm (24kn) GK1, GK2, GK3, GK4, GK4a, GK6 (PiF5s, Pi30, P42s, Pi43, Pi45, Pi50, Pi51, Pi52, Pi60) GA IX gyroscope with 9a program steering.
LT I B1 F5b Wet heater 449,6mm / 5490mm 20hm (40kn) GK1, GK2, GK2a, GK3, GK3a, GK4, GK4a, GK6 (PiF5s, Pi30, Pi30m, P42s, Pi43, Pi45, Pi50, Pi51, Pi52, Pi60) LT I A1 with electric depth- and gyroscope settings. Fielded early 1944.
LT I B2 F5b Wet heater 449,6mm / 5490mm 30hm (33kn) GK1, GK2, GK2a, GK3, GK3a, GK4, GK4a, GK6 (PiF5s, Pi30, Pi30m, P42s, Pi43, Pi45, Pi50, Pi51, Pi52, Pi60) LT I A2 with electric depth and gyroscope settings. Was probably only used for training purposes.
LT I B3 F5b Wet heater 449,6mm / 5490mm 60hm (24kn) GK1, GK2, GK3, GK4, GK4a, GK6 (PiF5s, Pi30, P42s, Pi43, Pi45, Pi50, Pi51, Pi52, Pi60) LT I A3 with electric depth and gyroscope settings. Fielded in mid-1944.
LT I B4 F5b Pfau Wet heater 449,6mm / 5490mm 60hm (24kn) GK5, GK9 (Pi43, Pi45, Pi52, Pi52a, Pi65) Passive Acoustic seeker (was ready for use, but never fielded before the end of the war).
LT I C F5b Wet heater 449,6mm / 5490mm unknown unknown Never finished testing (development-program ended due to limited resources).
LT II F5u Wet heater 450mm / 5010mm 14,8hm (45kn) unknown F5b with improved engine. 50 produced, never fielded.
LT II B1 F5u Ingolin-engine 449,6mm / 5490mm 50hm (40kn) unknown Never finished testing (development-program ended due to limited resources).
LT II B3 F5u Ingolin-engine 449,6mm / 5490mm 119hm (24kn) unknown GA 9b with 9b program steering. Never finished testing (development program ended due to limited resources).
LT II C F5u Ingolin-engine 449,6mm / 5490mm unknown unknown GA 9b with 9b program steering. Never finished testing (development program ended due to limited resources).
F5b Geier I and II Wet heater 449,6mm / 5490mm unknown unknown Active sonar homing, experimental. Similar to the Kriegsmarine TV. Development program with Kriegsmarine, but Luftwaffe ended up going for the "Pfau" instead.
Geier III unknown unknown unknown Proposed development of the Geier II with system for enhancing and comparing the hydrophone echoes. Only reached planning phase.
F5i Wet heater 450mm / 5250mm 30hm (40kn) unknown Italian standard aerial torpedo (unknown how much usage by Luftwaffe).
F5w Wet heater 450mm / 5460mm 30hm (40kn) unknown Italian Whitehead torpedo. Standard torpedo in use by Luftwaffe alongside the LT I A1.
LT 280 Electric 500mm / 2600mm 120hm (4-14kn) unknown Italian light torpedo.
LT 350 Electric ellipse-shaped hull 500mm / 2600mm 150hm (4-14kn) unknown Italian parachute-torpedo. Dropped from a height of 100m. It ran autonomously irregular search-patterns within a 1000x800m box for about one hour with speed decreasing from 14 to 4kn.
LT 850 Wet heater 450mm / 5470mm 20hm (42kn) unknown German designation for the successful Japanese airdropped Type 91 Mod 2 torpedo, using Japanese-devised pneumatic PID controller for roll stabilization. 70 torpedoes were delivered (it is not known which IJN sub delivered them), but none were used operationally. Intended weight of 810 kg (1,786 lb) complete for deployment.
LT 1000a Ingolin turbine-engine ellipse-shaped hull (390x200mm) / 5000mm unknown (40kn) unknown Never finished testing (development-program ended due to limited resources).
LT 1000b Ingolin turbine-engine ellipse-shaped hull (460x800mm) / 5398mm unknown (40kn) unknown A variant with altered tailsection/rudders.
LT 950 F5b Wet heater 450mm / 5360mm 30hm (40kn) unknown "Flugeltorpedo": F5b equipped with glider-attachment (wings and rudders). Experimental (several variants), not fielded. A maximum range of 2300m glidepath when dropped from a height of 800m were obtained during testing.
LT 9,2 F5b Frosch Wet heater 450mm / 5100mm unknown unknown A variant of the "flugeltorpedo" that was not pursued in favour of the LT950C.
LT 950C (L10 flugelantrieb) F5b Friedensengel Wet heater 450mm / 5100mm 90hm unknown The final variant of the "flugeltorpedo".
LT 1200A Ingolin rocket-engine (HWK) 450mm / 5200mm 22hm (40kn) unknown Development ended due to the torpedo being too heavy and having too short a range (weight: 815 kg).
LT 1200B Ingolin rocket-engine (HWK) 533,4mm / 7000mm 50hm (35kn) unknown Development ended due to the torpedo being too heavy and having too short a range (weight: 1200 kg).
LT 1500 Turbinen-antrieb Ingolin turbine-engine (HWK/CPVA) 533,4mm / 7050mm 35hm (40kn) unknown Improved version of the LT 1200, but similar the development ended due to the torpedo being too heavy and having too short a range (weight: 1520 kg).
LT 1500 Raketen-antrieb Ingolin rocket-engine (HWK/CPVA) 533,4mm / 7050mm unknown unknown LT 1500 variant with rocket-engine.

Luftwaffe torpedo designation system edit

As a general rule, Luftwaffe followed the Kriegsmarine system of code names and designations, but with some differences.

Variations for the letter(s) indicating specific features regarding propulsion and control:

  • b = Pressluft/Dampfgemisch-Antrieb (pressurized air/steam engine)
  • i and w = Italian-built torpedoes by the firms Silvrificio Italiano S/A (Naples) and Whitehead (Fiume) respectively.

Instead of letters and numbers denoting dimensions and features, a single 3 or 4 digit number was used for some torpedo designs.

Luftwaffe used the "LT" designation (= Lufttorpedo), but not limited to operational torpedoes. It also combined further letters and numbers to indicate type and features of the torpedo:

  • I = Pressluft/Dampfgemisch-Antrieb (pressurized air/steam engine)
  • II = Ingolin-Antrieb (use of hydrogen-peroxide as oxygen carrier)
  • A = Tiefen- und Winkeleinstellung von Hand (manual setting of depth and steering)
  • B = Elektrische Tiefen- und Winkeleinstellung (electric setting of depth and steering, i.e. possible to change in flight)
  • C = Programmsteuerung (program steering)
  • 1 = Speed of 40kn
  • 2 = Speed of 33kn
  • 3 = Speed of 24kn

Warheads edit

Luftwaffe warheads were designated GK (= Gefechtskopf) followed by a number and a small Arabic letter for variants. Exerciseheads was designated ÜK (= Übungskopf). The various types of explosives are described under the section of Kriegsmarine warheads above.

Operational warheads (weight/type of explosive charge):

  • GK 1: 200 kg/S3
  • GK 2: 180 kg/S3
  • GK 2a: 240 kg/S3
  • GK 3: 188 kg/S17
  • GK 3a: 250 kg/S17

Warheads in various state of development/test and production by end of the war (weight/type of explosive charge):

  • GK 4: 230 kg/S18
  • GK 4a: 220 kg/S18
  • GK 5: 175 kg/S18
  • GK 6: 180 kg/S3
  • GK 9: 165 kg/S18
  • GK 50: 300 kg/S18

Pistols edit

Designations for Luftwaffe pistols used the same system as Kriegsmarine.

The following torpedopistols reached operational status with Luftwaffe during WW2:

  • Pi F5: Nose-mounted Luftwaffe adaption of the Kriegsmarine mechanical Pi G7A-AZ pistol (similar design with a reduced physical size)
  • Pi 30: Pi F5 with connector for activation by an additional top-mounted magnetich mechanism
  • Pi 42s: Nose-mounted mechanic mechanism in a Pi F5 housing without detonation-arms/whiskers. Used in combination with the Pi 50-series top-mounted magnetic pistols
  • Pi 42s (e1): Pi 42s with electrical detonators, and an electric armingswitch controlled by the magnetic top-mounted Pi 52 magnetic pistol
  • Pi 45: Pi 42s with an inertia (pendolum) mechanism and electric detonators. Used with (and activated by) the Pi 52 or Pi 65 top-mounted magnetic mechanisms.
  • Pi 50: Italian top-mounted SIC combined mechanical/magnetic pistol. Used for LT IA and LT IB torpedoes. Similar design as the Kriegsmarine TZ 3.
  • Pi 51: German produced magnetic version of the Italian SIC-pistol. Acted as a magnetic sensor and when activated, triggered the electric detonators in the nose-mounted mechanichal mechanism (Pi 30 or Pi 42s)
  • Pi 52 (Pi Wien): Improved Pi 51 (ready, but never used before the war ended)
  • Pi 52a: Improved Pi 52 for use in warheads with nose-mounted acoustic-seeker (ready, but never used before the war ended)
  • Pi 52b: Adaption of the Pi 52 for use with Bombentorpedo (BT) (ready, but never used as the Bombentorpedoes never became operational)
  • Pi 60: Active top-mounted magnetic mechanism, developed from the Kriegsmarine TZ 6. Used with the nose-mounted Pi 30
  • Pi 65: Luftwaffe-adaption of the Kriegsmarine top-mounted TZ 5, for use with the "Pfau" and "Geier" torpedoes (active magnetic-mechanism) in combination with the nose-mounted Pi 45. Ready, but never used as the torpedoes were never fielded

Bombentorpedoes edit

Luftwaffe also developed a passive weapon called "Bombentorpedo" (BT), which was planned to replace the conventional torpedoes. It was airdropped from a low height and relative short distance from the target, would enter the water and travel the short remaining distance solely driven by its kinetic energy. No BT's were ever fielded operationally.

Designation Weight Dimensions, dia. / length Charge Notes
BT200 220 kg 300mm / 2395mm 100 kg
BT400 435 kg 378mm / 2946mm 200 kg
BT700A 780 kg 426mm / 3500mm 330 kg
BT700B 755 kg 456mm / 3358mm 320 kg
BT1000 1180 kg 480mm / 4240mm 710 kg Variant fitted with a rocket-engine, but the design was not successful.
BT1400 1510 kg 620mm / 4560mm 920 kg
BT1850 1923 kg 620mm / 4690mm 1050 kg

German torpedo platforms (Torpedoträger) edit

Kriegsmarine edit

  • Submarines (U-Boote)
  • Motor torpedo boats (S-Boote - Schnellboote or E-Boats as designated by the Royal Navy)
  • Larger surface vessels like battleships (Schlachtschiffe), cruisers (Kreuzer / Panzerschiffe), destroyers (Zerstörer), escorts/ corvettes/ frigates (Torpedoboote)
  • Various types of "irregular" surface vessels, like auxiliary cruisers/raiders (Hilfskreuzer) and Q-ships.
  • Fortified shore-based batteries (Torpedosperrbatterie)
  • Various temporary torpedo batteries were established at strategic locations for a period of time - (for instance as a substitute until a more permanent battery was established, or as a temporary defence for an improvised naval base etc.). These batteries varied from single to multiple tube launchers placed on quay/pier/suitable spot-on-the-ground or on small anchored boats/barges (schwimmende Batterie). An S-Boot anchored in fixed locations with its bow (and thus its torpedo tubes) facing one direction could also serve in this role. Typical armament for shore-based and temporary batteries were tubes from dismantled surface vessels (533mm Zwilling-, Drilling- or Vierling-Rohrsätze), Beutewaffe - i.e. tubes/torpedoes captured from the enemy, or older equipment from World War I.

Luftwaffe edit

Various aircraft designed for/configured as torpedo carriers:

  • Heinkel He 59: Obsolete, only in service from 1937 to ca 1940 (capacity: 1 torpedo)
  • Arado Ar 95 A: Limited number intended as a carrier-based torpedobomber, but was obsolete by 1940 (capacity: 1 torpedo)
  • Arado Ar 195: Intended as a carrier-based torpedobomber, only a few prototypes used for testing in competition with the Fi 176, never used operationally (capacity: 1 torpedo)
  • Fieseler Fi 167 A: Intended as a carrier-based torpedobomber, only a pre-production series built and tested towards the Ar 195 (capacity: 1 torpedo)
  • Dornier Do 22: A few produced for export, never used by Luftwaffe (capacity: 1 torpedo)
  • Blohm & Voss Ha 140: Only a few prototypes used for testing in competition with the He 115 (capacity: 1 torpedo)
  • Heinkel He 115: Luftwaffe's first modern torpedobomber. In service from 1940 to 1942 (capacity: 1 torpedo)
  • Junkers Ju 87 C: Experimental torpedobomber intended for carrier-operations. Never used operationally (capacity: 1 torpedo)
  • Heinkel 111 J: Only a few built for torpedo trials in 1938, but ended up being used for reconnaissance (capacity: 2 torpedoes)
  • Heinkel 111 H: The main standard German torpedobomber, in service from 1941 and throughout WW2 (capacity: 2 torpedoes)
  • Junkers Ju 88 A: Standard German torpedobomber together with the He 111 H, in service from 1942 and throughout WW2 (capacity: 2 torpedoes)
  • Junkers 188 E: Standard German torpedobomber introduced to service in 1944 (capacity: 2 torpedoes)
  • Focke-Wulf Fw 200 C: Experimental torpedobomber, only used for one operation in 1941 (capacity: 2 or 4 torpedoes)
  • Focke-Wulf Fw 190 A: Experimental torpedobomber tested in 1943. Never used operationally (capacity: 1 torpedo)
  • Focke-Wulf Fw 190 F: Experimental torpedobomber tested in 1943. Never used operationally (capacity: 1 torpedo)
  • Heinkel 177 A-5: Experimental torpedobomber. Never used operationally (capacity: 2 or 4 torpedoes)
  • Heinkel 177 R-6: Experimental torpedobomber. Never used operationally (capacity: 2 or 4 torpedoes)
  • Messerschmitt Me 410 B: Experimental torpedobomber tested in 1944. Never used operationally (capacity: 1 torpedo)
  • Dornier Do 217 E: Planned/experimental torpedobomber intended for use with new torpedodesigns in development with advanced controls. Never used operationally (capacity: 2 or 4 torpedoes)
  • Dornier Do 217 K: Planned/experimental torpedobomber intended for use with new torpedodesigns in development with advanced controls. Never used operationally (capacity: 2 or 4 torpedoes)
  • Dornier Do 217 M: Planned/experimental torpedobomber intended for use with new torpedodesigns in development with advanced controls. Never used operationally (capacity: 2 or 4 torpedoes)
  • Fokker T.VIII W: Dutch torpedobomber. Beutewaffe never used operationally as torpedobomber by Luftwaffe (capacity: 1 torpedo)

References edit

  • Bundesmarine: Deutsche Unterwasserwaffen - Torpedos, 1967 (German translation of U.S. Navy Ordnance Pamphlet 1673B)
  • Bundesmarine: Torpedo Zünder der Deutschen Marine von 1914 bis 1968 mit historischen Rückblick Band 1, ca 1975
  • Torpedo Versuch Anstalt Eckernförde (TVA/E): Short survey of the course of Torpedo Development from T1 to the newest types, 1946 (post-war report for the Royal Navy)
  • Royal Navy: B.R.1972 German torpedoes and development of German torpedo control, 1952
  • Combined Intelligence Objectives Subcommittee: Evaluation Report 167: Details of Contents of Microfilm on Captured Documents Pertaining to German Torpedo Developments, 1945
  • Wehrmacht/Kriegsmarine: Technische Dienstvorschrift Nr. 194 Torpedo-Kopf-Pistolen-Tabelle, 1944
  • Wehrmacht/Kriegsmarine: Various torpedo handbooks and regulations (Marine-Dienstvorschriften)
  • Wehrmacht/Luftwaffe: Various torpedo handbooks and regulations (Luftwaffen-Dienstvorschriften)
  • Wehrmacht/Kriegsmarine/Torpedoinspektion/Chemisch-Physikalische Versuchsanstalt der Marine: "Einführung in das Unterwasser-Sprengwesen" Band 1, 1945
  • U.S. Navy Ordnance Pamphlet 1666 German Explosive Ordnance Volume 1, 1946
  • Eberhard Rössler: Die Torpedos der deutschen U-Boote (2.ed), 2005 (ISBN 3-8132-0842-7)
  • Friedrich Lauck: Der Lufttorpedo - Entwicklung und Technik in Deutschland 1915-1945, 1981 (ISBN 3-7637-5230-7)
  • Harold Thiele: Luftwaffe Aerial Torpedo Aircraft and Operations in World War Two, 2004 (ISBN 1 902109 42 2)
  • Fritz Hahn: Deutsche Geheimwaffen 1939-1945 - Flugzeugbewaffnungen, 1963
  • David H Wright: Thesis on German torpedo crisis in WW2, 2004
  • Numerous allied reports and captured German documents from Kriegsmarine and Luftwaffe, kept at various archival-institutions and museums. Primary sources: The US National Archives/NARA (mainly Record Group 38 and Record Group 242/publication T-1022), the British National Archives/TNA (mainly Royal Navy Admiralty record-groups 213, 290 and 292), the German National Archives/Ba, the Norwegian National Archives/RA and the Norwegian Naval Museum/MMU.

April 12, 2024
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This article includes a list of general references but it lacks sufficient corresponding inline citations Please help to improve this article by introducing more precise citations August 2023 Learn how and when to remove this template message Contents 1 List of World War II Kriegsmarine torpedoes 1 1 Kriegsmarine torpedo designation system 1 1 1 Warheads 1 1 2 Pistols 1 1 3 Code names 1 2 Program steering 2 List of World War II Luftwaffe torpedoes 2 1 Luftwaffe torpedo designation system 2 1 1 Warheads 2 1 2 Pistols 2 2 Bombentorpedoes 3 German torpedo platforms Torpedotrager 3 1 Kriegsmarine 3 2 Luftwaffe 4 ReferencesList of World War II Kriegsmarine torpedoes editDesignation Codename Propulsion Dimensions dia length Range speed Warhead pistol NotesKM TypeTI G7a Wet heater 533 4 mm 7163 mm 120 hm 30kn NS 75hm 40 kn WS 50 hm 44 kn SS Ka Pi1 Kc Pi3 The standard torpedo prior to World War II used by all platforms during World War II surface combatants Kreuzer Zerstorer T Boote S Boote and U boats at night Nicknamed ato by German crews i e atem or air torpedo indicating the steam propulsion to distinguish it from the G7e electric torpedoes 44 kn speed was only used for S Boote According to certain sources only used from surface vessels during the last part of World War II TI Fat I G7a Wet heater 533 4 mm 7163 mm 120hm 30 kn 75 hm 40 kn 50 hm 44 kn Ka Pi1 Kc Pi3 Standard TI with Fat program control type I for security reasons only used by night TI Lut I G7a Wet heater 533 4 mm 7163 mm 120 hm 30 kn 75 hm 40 kn 50 hm 44 kn Ka Pi1 Kc Pi3 Standard TI with Lut program control type I TI Lut II G7a Wet heater 533 4 mm 7163 mm 120hm 30kn 75 hm 40 kn 50 hm 44 kn Ka Pi1 Kc Pi3 Standard TI with Lut program control type II TIu G7a Wet heater 533 4 mm 7163 mm lt 120 hm 30 kn lt 75 hm 40 kn Exercise head only light Torpedo dedicated for educational training purposes with Schulboote at U Flotillen It had restricted settings on depth mechanism a light empty exercise head and other minor modifications to ensure positive buoyancy at the end of the run and reduced stress on the engine less damages and loss of torpedoes i e achieving a higher number of shots TIu Lut II G7a Wet heater 533 4 mm 7163 mm lt 120 hm 30 kn lt 75hm 40 kn Exercise head only light TIu with Lut program control type II TII G7e Electric lead acid battery 13T 533 4mm 7163mm 50 hm 30 kn Ka Pi1 Faulty pistols Nicknamed eto electric torpedo by German crews for easy distinguishing from the G7a ato air driven torpedo Could not be fitted with Fat or Lut due to its short range TIII G7e Electric lead acid 13T battery 534 6 mm 7163 mm 50 hm 30 kn Kb Pi2 Improved pistols and batteries cable guide from the battery chamber to the warhead for powering magnetic pistols Nicknamed eto electric torpedo by German crews for easy distinguishing from the G7a ato air driven torpedo TIII Fat II G7e Electric lead acid 13T battery 534 6 mm 7163 mm 50 hm 30 kn Kb Pi2 TIII with Fat program control type II TIIIa Fat II G7e Electric lead acid 17T battery 534 6 mm 7163 mm 75 hm 30 kn Ka Pi1 Kb Pi2 TIII with improved battery and Fat program control type II TIIIa Lut I G7e Electric lead acid 17T battery 534 6 mm 7163 mm 75 hm 30 kn Ka Pi1 Kb Pi2 TIII with improved battery and Lut program control type I TIIIa Lut II G7e Electric lead acid 17T battery 534 6 mm 7163 mm 75 hm 30 kn Ka Pi1 Kb Pi2 TIII with improved battery and Lut program control type II TIIIb G7e Electric lead acid 13T battery 534 6 mm 7163 mm 40 hm 18 5 n Kb2 Pi2f TIII with only one battery compartment to reduce weight special adaptation for use on Marder midget submarine TIIIc G7e Electric lead acid 13T battery 534 6 mm 7163 mm 40 hm 18 5 kn Kb2 Pi2f Improved TIIIb special adaptation for use on Biber Hecht Molch and Seehund midget submarines TIIId G7e Dackel Electric lead acid 17T 210 battery 534 6 mm 11 000 mm ca 480 hm 9 kn Kb2 Pi1d Special long range anti invasion torpedo with a variant of the Lut II program steering Launched from S Boote and barges it saw operational use against the allied invasion fleet in Normandy TIIIe G7e Kreuzotter Electric lead acid 13T Special battery 534 6 mm 7163 mm 75 hm 20 kn Ke1 Pi4c TIII specially adapted for use on Molch and Seehund midget submarines TIV G7es Falke Electric lead acid 534 6 mm 7163 mm 75 hm 20 kn Kd Pi4a Simple acoustic homing Only operational for a brief period before being replaced by the improved TV TV G7es Zaunkonig Electric lead acid 534 6 mm 7163 mm 57 hm 24 kn Ke1 Pi4c Acoustic homing three different type of seekers Nicknamed GNAT by the allies acronym from German Naval Acoustic Torpedo Generally regarded as the best German torpedo of World War II between 5000 and 6000 launched with a reported hit rate of approximately 53 a number that was considerably reduced after post war analysis TV torpedoes were modified to TXI from fall 1944 TVa G7es Zaunkonig Electric lead acid 534 6mm 7163 mm 80 hm 21 5 kn Ke1 Pi4d TV specially adapted for use on S Boote end of run detonation reduced speed longer range and different depth mechanism TVb G7es Zaunkonig Electric lead acid 534 6 mm 7163 mm 80 hm 21 5 kn Ke1 Pi4c TVa adapted for use as an anti U boat torpedo TVI G7es Electric lead acid 534 6 mm 7163 mm 75 hm 30 kn Kf Pi6 TIIIa with minor changes probably with Lut II and a special warhead which was never fielded TVII G7ut Steinbutt Walter turbine 534 6 mm mm 80 hm 45 kn Kb Pi2 Kf Pi6 Ingolin peroxide dekalin helman water fueled BO VI turbine Combustion chamber arranged horizontally in the longitudinal axis Approximately 100 torpedoes produced but never fielded mainly due to several problems with both pistol and start ballistics TVIII G7ut Steinbarsch Walter turbine 534 6mm mm 80hm 45kn Kb Pi2 Kf Pi6 Development of the TVII with different internal organisation of the various mechanisms More than 100 torpedoes produced Was due to be fielded in April 1945 despite several problems during testing TIX G5ut Goldbutt Walter turbine 534 6 mm 5490 mm 40 hm 45 kn Goldfisch variant planned for the German Kleinst Uboote As development of the U boat ended so did the program for the TIX TX G7ef NYK Spinne Electric lead acid 13T battery 534 6 mm 7163 mm 50hm 30 kn Ka Pi1 Developed from the TII torpedo Wire guided by means of visual sight from a command bunker observation site Intended for coastal defence and use from beach batteries wagenbatterie later evolved to also include special harbour installations molenbatterie and mobile launchers schiffbatterie Only 200 torpedoes were built gerat 43d originally for 35 spinne sperrbatterie to be established on the French channel and Mediterranean coastline from July 1944 Some batteries were also established in Belgium and after the allied invasion in July 1944 most of the French batteries were moved to the Netherlands Germany and Denmark 85 TX torpedoes were located in 14 Danish batteries after the war TXa G7ef NYK Spinne Electric lead acid 13T battery 534 6 mm 7163 mm 50 hm 30kn Ka Pi1 A new version gerat 43 cp of the TX tested for use on midget submarines Marder Molch Seehund with good results It was planned for operational use on the Seehund from August 1945 TXI G7es Zaunkonig II Electric lead acid 534 6 mm 7163 mm 57 hm 24 kn Ke1 Pi4c TV with improved acoustic homing and depth mechanism Operational About 90 torpedoes in stock by September 1944 a combination of new torpedoes and the ongoing upgrade of existing TV but no certain record of usage during the war five TXI torpedoes were recovered from the U 534 now on display in Birkenhead UK Four of the TXIs were picked for parts and blown up Only one torpedo remains on display with the U boat TXII G5e Electric lead acid 9T battery 534 6mm 5550 mm 30 hm 30 kn Kb Pi2 Short torpedo developed for the smaller type XVII coastal submarines Was intended as a temporary solution until the ingolin torpedoes were ready for operational use but never fielded TXIII G7ut K Butt Walter turbine 534 6 mm 7163 mm 30 hm 45 kn Kb2 Pi2 Ingolin dekalin helman water fueled BO VI turbine Less fuel than the Goldbutt but 7 m length Experimental development for the Seehund midget submarine With sinker mechanism Approximately 60 torpedoes produced planned for fielding by end of April 1945 TXIV G7a Wet heater 534 6 mm 527 for airtank 7163 mm 25 hm 34 kn Kc Pi3 TI with changed buoyancy max air pressure reduced from 200 to 100 kg cm 2 developed as a replacement for TIIIc failing batteries for use on the Seehund midget submarine With sinker mechanism Never fielded G7es Lerche Electric 13T 210 Special battery 534 6 mm 7163 mm unknown Ke1 Pi4c TZ5 Development of the TV and TX with both active acoustic seeker and wire guidance An operator in an U boat could listen to the signal from the seeker and manually control the steering Never fielded G7t Sauerstoff turbine 534 6 mm 7163 mm unknown unknown TZ2b TZ5 Experimental development of the oxygen turbine Dropped in favour of the ingolin engines G7m Kreismotor 534 6 mm 7163 mm 270 hm 40 kn 180hm 48kn unknown TZ2b TZ6 Experimental Gasoline and compressed oxygen as fuel Development was dropped in favour of the ingolin engines G7p Electric with primary battery 91 5hm 30kn 36 5 hm 40 kn Experimental using two primary batteries magnesium carbon and zinc leadoxide for propulsion It was proposed to get very good speed and range but development ended due to lack of resources M5 Wet heater 736 6 mm 4880 mm unknown 40 kn unknown Experimental torpedo developed for coastal defence with a very large explosive charge and long range Based on the TI with a 6 cylinder engine and only one speed setting 14 torpedoes built with 6 spare engines Testing proved numerous bottom runners due to failure of the launch and general poor quality of design and production Two torpedoes were recovered and prepared for transport to the U S Ordnance Investigation Laboratory as museum pieces but whether this was executed is doubtful G7es Geier I and II Electric 534 6 mm 7163 mm unknown Active sonar homing experimental Similar to the TV Development program with Luftwaffe which ended up going for the Pfau instead Otherwise successful design which led to planning of a further development Geier III LTIm F5b Wet heater 450 mm 5550 mm 25 hm 40 kn GK3a Pi51 Luftwaffe F5b LTI torpedo adapted for use on Kriegsmarine Kleinstschnellboote G7as Wet heater Acoustic homing not fieldedG7u Klippfisch Wet heater Walter turbine 95 hm 40 kn Experimental intermediate model for the G7ut development never planned for production Ingolin dekalin Helman Water propulsion using the aft section and engine from the TI G7ut Schildbutt Walter turbine with seawater injection 140 hm 45 kn 180 hm 40 kn Experimental Ingolin dekalin Helman Water pressure injection fueled turbine later developed with the Steinwal BO VI turbine Zaunbutt Ingolin Walter turbine Acoustic seeker from the TV combined with the ingolin propulsion Proposed shorter range than the Steinbutt due to losing space for fuel in favour of electronics for the seeker The project was in model testing phase when all plans and models were destroyed in a bombing raid The project was not continued Wal Steinwal Ingolin Walter turbine 192 hm 45 kn Experimental Ingolin dekalin water pumped to the motor combined with Helman pressure conveyor BO VI turbine Development nearly finished by end of the war G7f NY Electric 12 5 hm 30 kn Experimental surface running torpedo remotely controlled by radio several solutions were investigated including control from airplane and shore based relay stations Hexagon shaped hull with hydrofoil wings and rocket propulsion G7m Closed circuit propulsion 180 hm 48 kn Considered as replacement for both steam and electric propulsion Never fielded G7d Oxygen fueled wet heater engine 120 hm 45 kn In early stages of development by April 1945 German oxygen torpedo of similar design as the Japanese Type 93 Long Lance Based on the G7a TI reusing the airtank the waterchamber and the enginecompartment combined with the turbine from the G7ut Expected to have improved performance over the TI with almost no bubbletrack Also it would have superior safety for handling storage on board as well as less loss of energy over time in storage compared to the ingolin torpedoes G7ur Hecht Walter rocket ExperimentalG7ur Mondfisch Walter rocket 700 hm 45 kn Experimental Ingolin dekalin floran fueled rocket engine BO VI Turbine Transverse combustion chamber G5ut Goldfisch Walter turbine 534 6 mm 5490 mm 34 hm 45 kn 5 m version of the Steinfisch Planned torpedo for the Spezial Uboote with development ending as the U boats were never realized Electric lead acid unknown unknown Two experimental torpedo models using the TIII engine but replacing the conventional propellers with schlagruder oscillating fins similar to the tail of a whale The hull was of an unconventional manta design which had several benefits Less drag in the water Potential for much higher payload a total weight of 4 tonnes using the TIII engine compared to the 1 5 tonne total weight of the TIII Much more stable travel compared to the traditional tube formed torpedo hulls One test model build Ackermann unknown unknown unknown Wake homing torpedo with acoustic pressure seeker Only theoretic planning Fasan unknown unknown unknown Active acoustic seeker with Lut program steering Lut program active until a ships wake is crossed detected upon the acoustic homing would be triggered Only at planning stage Ibis unknown unknown unknown Active wake homing acoustic seeker Project was dropped in favour of the Fasan Marchen unknown unknown unknown Magnetic seeker Only theoretic planning Taube unknown unknown unknown Low frequency passive acoustic seeker Only theoretical planning G7v Wet heater 500 mm 7083 mm 120 hm 28 5 kn Older torpedo developed in the early 1920s prequel for the 21 inch G7a which saw limited use during World War II It was used at least until October 1944 in the Ofotfiord batteries outside Narvik and most likely for the rest of the war on some schwimmende batteries protecting the major German battleships in their bases in northern Norway G 250 Wet heater 450 mm 7083 mm 60 hm 27 kn 25 hm 36 kn Older Whitehead torpedo developed at the end of WW1 which saw limited use during World War II For instance it replaced older Norwegian torpedoes at two shore torpedo batteries on the west coast of Norway during the war original torpedoes often failed due to conditions at the site as well as a wish for an increased explosive charge F5 Wet heater 450 mm 6505 mm 15 hm 45 kn Norwegian 45 cm torpedoes beutewaffe used at certain shore based torpedo batteries in Norway Kriegsmarine torpedo designation system edit The first letter indicates the diameter G 53 cm 21 in F 45 cm 17 7 in H 60 cm 23 7 in M 75 cm 30 in The number indicates the approximate length for example the length of the TI is 7163 mm 7 7 m 6 6 m 5 5 mNext letter s indicates specific features regarding propulsion and control a Atem i e Pressluft Dampfgemisch Antrieb pressurized air steam wetheater engine e Elektrischer Antrieb electric engine f Fernlenkung remote control by radio or cable d Sauerstoff Dampfgemisch Antrieb oxygen steam engine p Primarbatterie Antrieb primary battery propulsion m Verbrennungsmaschine mit Kreislaufverfahren combustion engine recirculating air u Sauerstofftrager Ingolin spurenfreier Antrieb oxygen steam engine with hydrogen peroxide as source for air and no exposing bubbletrack x Torpedo mit 3 Achsen Steuerung 3 axes control r Raketen oder Dusenantrieb rocket or jet propulsion s Schall Torpedo mit akustischen Suchkopf acoustic seeker t Turbinenantrieb turbine engine r and t were only used with u to further denote the features of the ingolin torpedoes Some sources claim that s only was used with a to denote the development of G7a with acoustic seeker capability however it was no doubt used for the electric torpedoes with acoustic seekers as es or just s When the torpedo reached production status and was fielded i e for operational use Kriegsmarine gave it a short designation T or Torpedonummer with the number given in Roman lettering TI TII TIII TIV etc For different versions of the main torpedo a small Arabic letter was added for example TIIId TVa etc denoting changes from the main design Warheads edit Warheads were designated with the letter K K short for Kopf meaning head and a small Arabic letter with an additional number denoting variants of the head for instance changing the material composition from bronze to steel adding removing spants during the course of the war or the method of installing the explosives Examples Ka Ka1 Kb Kb1 etc The explosive charge of warheads in German torpedoes during WW2 were different compositions of the Schiesswolle SW that consisted mainly of a mixture of Trinitrotoluene TNT and Hexanitrodiphenylamin HND Schiesswolle 18 60 Trinitrotoluol 24 Hexanitrodiphenylamin 16 Aluminumpowder Schiesswolle 36 67 Trinitrotoluol 8 Hexanitrodiphenylamin and 25 Aluminumpowder Schiesswolle 39 45 Trinitrotoluol 5 Hexanitrodiphenylamin 20 Aluminumpowder 30 Ammonium Nitrate Schiesswolle 39a 50 Trinitrotoluol 10 Hexanitrodiphenylamin 35 Aluminumpowder 5 Ammonium Nitrate Schiesswolle xx unknown 0 6 Trinitrotoluol 40 Aluminumpowder 31 4 Ammonium Nitrate 5 9 Sodium Nitrate 2 3 Potassium Nitrate 9 7 Cyclonite 10 1 Ethylene Diamine DinitrateA total of 41 different types of explosive charges were used in German underwater ordnance all given a S number 1 41 for identification only those relevant for torpedoes are listed here S1 SW 18 solid consistency S2 SW 36 solid consistency S3 SW 39 solid consistency S4 Combination of S2 and S3 solid consistency S5 Combination of S1 and S3 solid consistency S16 SW xx described as a lumpy consistency S17 SW 39a solid consistency S18 Combination of S16 and S17 easy liquefiable consistency List of Kriegsmarine warheads with weight type of explosive charge Type Ka 295 kg S2 pre WW2 head not produced after ca 1941 Type Ka 1 297 kg S3 or S4 in service from June 1942 to August 1943 Type Ka 2 293 kg S3 S4 or S18 in service from August 1943 Type Kb 282 kg S2 or S18 in service from September 1942 Type Kb 1 282 kg S18 in service from February 1944 Type Kc 260 kg S2 in service from March 1943 Type Kc 1 256 kg S2 or S18 in service from October 1943 Type Kc 2 256 kg S18 in service from May 1944 Type Ke 274 kg S2 in service from July 1943 Type Ke 1 274 kg S2 or S18 in service from February 1944 Type Kf Unknown weight but probably similar to the type Ke S18 in service from April 1944 Pistols edit Pistols used the Pi designations to begin with Pi short for pistole The early models were named according to function and or torpedo type like PiG7H or PiG7A MZ but this was later replaced with a simple system of numbers like Pi1 Pi2 etc To indicate variants within the main design a small Latin letter was added after the number like Pi1a Pi1b etc At some point Pi was dropped for pistols with combination of mechanical direct hit and magnetic influence mechanisms to the TZ designation TZ Torpedo Zundeinrichtung For example the mechanical mechanism from the Pi1 pistol combined with the magnetic mechanism from Pi2 became the TZ2 The main booster charge used in German pistols was Pentrite typically 300 g The following torpedopistols reached operational status with Kriegsmarine during WW2 Pi G7A AZ Mechanical igniter with short whiskers replaced by Pi1 Pi G7A MZ Combined mechanical and faulty magnetic igniter replaced by Pi2 Pi Typ 3F later renamed Pi40 Copy of the British Type 3F pistol Pi G7H later renamed Pi1 Mechanical igniter most common pistol used besides Pi2 Pi1a Pi1 with netcutter Pi1b Mechanical igniter with pendulum rather than whiskers not successful Pi1c Improved Pi1a Pi1d Special version of the Pi1c for the TIIId Dackel torpedo waterflap safety replaced by a manually pulled safetypin due to the torpedo s extremely low speed Pi2 Mechanical igniter from Pi1 with an additional magnetic igniter Pi2a Pi2 with netcutter Pi2c Special variant of the Pi2a with its own battery for the low speed TIIIb torpedo Pi2d Improved variant of the Pi2c for torpedoes with low speed TIIIb and TIIIc Pi2e Variant of the Pi2a with pendulum for the mechanical igniter used for TIIIb and TIIIc torpedoes Pi2f Variant of the Pi2d for low speed TIIIb and TIIIc torpedoes Pi2 EDS Pi2 with endstreckendetonierersicherung a feature to ensure the torpedo did not detonate if missing the target TZ2 Combination of Pi1 and Pi2 used for torpedoes with low speeds below 30kn Pi3 Italian pistol similar in function to the Pi2 but a different construction Pi3a Variant of the Pi3 similar to the Pi1a Pi3c Pi3 with netcutter PiSic later renamed TZ3 Italian constructed passive magnetic igniter combined with the mechanical igniter from the Pi3 Only used for G7a TI and G7a TXIV TZ3a Improved German variant of the PiSic TZ3b TZ3a with improved induction coil for the magnetic igniter Pi4 New pistol for heads with front mounted acoustic seeker i e the TIV TV and TIX mounted on top of the head with a pendoulum based mechanical igniter and a separate active magnetic igniter Pi4a Pi4 with improved mechanical igniter Pi4b also designated Pi DWK New design of the mechanical igniter by Deutsche Werke Kiel hence DKW Pi4c Mechanical pendolum igniter only used in the TZ5 Pi4c EDS later renamed Pi4e Pi4c with the EDS function from the Pi2 EDS Pi4d SZE Pi4c with selbstzerstorungseinrichtung a function to ensure that the torpedo would detonate after missing a target i e the opposite of EDS Pi5 later renamed TZ5 Combination of Pi4c and a new active magnetic igniter sender in head receiver in tail Pi6 New pistol ready for operational use with the TVI and TVII ingolin torpedoes Based on the Pi3 Pi6a Pi6 improved with parts of the Pi1a TZ6 Mechanical igniter from the Pi6 and a new active magnetic igniter sender in head receiver in tail Code names edit Code names were intended to be used only through the development period for security measures However in some cases they remained after the torpedo was fielded and had been designated with a T number Torpedo pistols program seeker systems and other special arrangements also had their own system of code names using the names of birds fish or animals for example Pi Leuchtfisch GA Specht seeker Storch control Viper target detector Salamander etc During development the pistols were often given code names designated by the industrial developer or manufacturer Generally these consisted of simple words syllables or names associated with the firm or the engineers in charge of the pistol s development for example Pi Otto Pi Atlas Pi Berlin etc Program steering edit Program steering was accomplished by a mechanical device Federapparat coupled to the torpedo s gyroscope to alter its course in various pattern Two main types was fielded during WW2 Fat and Lut Fat Flachenabsuchender Torpedo area searching torpedo changed the torpedo s course over time so that it ran various patterns Three versions Fat I II and III Fat III was later redesignated Lut I Lut Lageunabhangiger Torpedo bearing independent torpedo changed the torpedo s course to a preset heading directly after launch so the launching platform could fire torpedoes at targets without changing its own course Two versions Lut I and Lut II a special Lut I variant for the TIIId torpedo with a very long initial straight run of 36000 m The Fat or Lut mechanisms initiated control of the gyroscope after an initial preset straight running distance Fat I S shaped loop patterns The initial straight distance could be set from a minimum of 500 m to a maximum of 1500 m Two loop patterns were available short and long and in addition there was a choice of right or left turns i e a total of 5 settings on the Fat mechanism For short loops the straight distance between turns was 800 m with a total width of the pattern search of 1140 m For long loops the straight distance between turns was 1500 m and a total width of the pattern search of 1840 m The turning radius for both patterns was 170 m Fat II S shaped loops or circular patterns The same as Fat I but with an additional choice for circular pattern where the torpedo would run in a circle after the initial straight run This was an option primarily used by U boats against attacking surface ships that ran a zig zag pattern hunting the U boat the goal was to locate the torpedo s circle run just ahead of the attacking ship hoping for a lucky hit Fat III Lut I zig zag pattern Initial torpedo course could be chosen so the torpedo platform did not need to change its bearing to an optimal course for torpedo launch The Lut speed i e the resulting advance speed of the torpedo considering the zig zag pattern could be chosen and subsequently the straight legs between turns would be adjusted accordingly Lut II Same as Lut I but even slower Lut speeds could be chosen List of World War II Luftwaffe torpedoes editDesignation Codename Propulsion Dimensions dia length Range speed Warhead pistol NotesLw TypeF5 Wet heater 450mm 5550mm 30hm 33kn unknown Copy of the Norwegian F1 Horten torpedo Limited drop parametres 75kn airspeed 15 20m height LT I F5a Wet heater 450mm 5550mm 26hm 33kn unknown German development of the Norwegian F1 Horten torpedo Improved drop parametres 140kn airspeed 50m height LT I A F5b Wet heater 449 6mm 5490mm 30hm 40kn unknown Improved version of the F5a increased capacity air tank and higher performance engine LT I A1 F5b Wet heater 449 6mm 5490mm 20hm 40kn GK1 GK2 GK2a GK3 GK3a GK4 GK4a GK6 PiF5s Pi30 Pi30m P42s Pi43 Pi45 Pi50 Pi51 Pi52 Pi60 Developed by Kriegsmarine for Luftwaffe Fielded in 1941 The main German aerial torpedo of World War II alongside the F5w LT I A2 F5b Wet heater 449 6mm 5490mm 30hm 33kn GK1 GK2 GK2a GK3 GK3a GK4 GK4a GK6 PiF5s Pi30 Pi30m P42s Pi43 Pi45 Pi50 Pi51 Pi52 Pi60 Never fielded LT I A3 F5b Wet heater 449 6mm 5490mm 60hm 24kn GK1 GK2 GK3 GK4 GK4a GK6 PiF5s Pi30 P42s Pi43 Pi45 Pi50 Pi51 Pi52 Pi60 GA IX gyroscope with 9a program steering LT I B1 F5b Wet heater 449 6mm 5490mm 20hm 40kn GK1 GK2 GK2a GK3 GK3a GK4 GK4a GK6 PiF5s Pi30 Pi30m P42s Pi43 Pi45 Pi50 Pi51 Pi52 Pi60 LT I A1 with electric depth and gyroscope settings Fielded early 1944 LT I B2 F5b Wet heater 449 6mm 5490mm 30hm 33kn GK1 GK2 GK2a GK3 GK3a GK4 GK4a GK6 PiF5s Pi30 Pi30m P42s Pi43 Pi45 Pi50 Pi51 Pi52 Pi60 LT I A2 with electric depth and gyroscope settings Was probably only used for training purposes LT I B3 F5b Wet heater 449 6mm 5490mm 60hm 24kn GK1 GK2 GK3 GK4 GK4a GK6 PiF5s Pi30 P42s Pi43 Pi45 Pi50 Pi51 Pi52 Pi60 LT I A3 with electric depth and gyroscope settings Fielded in mid 1944 LT I B4 F5b Pfau Wet heater 449 6mm 5490mm 60hm 24kn GK5 GK9 Pi43 Pi45 Pi52 Pi52a Pi65 Passive Acoustic seeker was ready for use but never fielded before the end of the war LT I C F5b Wet heater 449 6mm 5490mm unknown unknown Never finished testing development program ended due to limited resources LT II F5u Wet heater 450mm 5010mm 14 8hm 45kn unknown F5b with improved engine 50 produced never fielded LT II B1 F5u Ingolin engine 449 6mm 5490mm 50hm 40kn unknown Never finished testing development program ended due to limited resources LT II B3 F5u Ingolin engine 449 6mm 5490mm 119hm 24kn unknown GA 9b with 9b program steering Never finished testing development program ended due to limited resources LT II C F5u Ingolin engine 449 6mm 5490mm unknown unknown GA 9b with 9b program steering Never finished testing development program ended due to limited resources F5b Geier I and II Wet heater 449 6mm 5490mm unknown unknown Active sonar homing experimental Similar to the Kriegsmarine TV Development program with Kriegsmarine but Luftwaffe ended up going for the Pfau instead Geier III unknown unknown unknown Proposed development of the Geier II with system for enhancing and comparing the hydrophone echoes Only reached planning phase F5i Wet heater 450mm 5250mm 30hm 40kn unknown Italian standard aerial torpedo unknown how much usage by Luftwaffe F5w Wet heater 450mm 5460mm 30hm 40kn unknown Italian Whitehead torpedo Standard torpedo in use by Luftwaffe alongside the LT I A1 LT 280 Electric 500mm 2600mm 120hm 4 14kn unknown Italian light torpedo LT 350 Electric ellipse shaped hull 500mm 2600mm 150hm 4 14kn unknown Italian parachute torpedo Dropped from a height of 100m It ran autonomously irregular search patterns within a 1000x800m box for about one hour with speed decreasing from 14 to 4kn LT 850 Wet heater 450mm 5470mm 20hm 42kn unknown German designation for the successful Japanese airdropped Type 91 Mod 2 torpedo using Japanese devised pneumatic PID controller for roll stabilization 70 torpedoes were delivered it is not known which IJN sub delivered them but none were used operationally Intended weight of 810 kg 1 786 lb complete for deployment LT 1000a Ingolin turbine engine ellipse shaped hull 390x200mm 5000mm unknown 40kn unknown Never finished testing development program ended due to limited resources LT 1000b Ingolin turbine engine ellipse shaped hull 460x800mm 5398mm unknown 40kn unknown A variant with altered tailsection rudders LT 950 F5b Wet heater 450mm 5360mm 30hm 40kn unknown Flugeltorpedo F5b equipped with glider attachment wings and rudders Experimental several variants not fielded A maximum range of 2300m glidepath when dropped from a height of 800m were obtained during testing LT 9 2 F5b Frosch Wet heater 450mm 5100mm unknown unknown A variant of the flugeltorpedo that was not pursued in favour of the LT950C LT 950C L10 flugelantrieb F5b Friedensengel Wet heater 450mm 5100mm 90hm unknown The final variant of the flugeltorpedo LT 1200A Ingolin rocket engine HWK 450mm 5200mm 22hm 40kn unknown Development ended due to the torpedo being too heavy and having too short a range weight 815 kg LT 1200B Ingolin rocket engine HWK 533 4mm 7000mm 50hm 35kn unknown Development ended due to the torpedo being too heavy and having too short a range weight 1200 kg LT 1500 Turbinen antrieb Ingolin turbine engine HWK CPVA 533 4mm 7050mm 35hm 40kn unknown Improved version of the LT 1200 but similar the development ended due to the torpedo being too heavy and having too short a range weight 1520 kg LT 1500 Raketen antrieb Ingolin rocket engine HWK CPVA 533 4mm 7050mm unknown unknown LT 1500 variant with rocket engine Luftwaffe torpedo designation system edit As a general rule Luftwaffe followed the Kriegsmarine system of code names and designations but with some differences Variations for the letter s indicating specific features regarding propulsion and control b Pressluft Dampfgemisch Antrieb pressurized air steam engine i and w Italian built torpedoes by the firms Silvrificio Italiano S A Naples and Whitehead Fiume respectively Instead of letters and numbers denoting dimensions and features a single 3 or 4 digit number was used for some torpedo designs Luftwaffe used the LT designation Lufttorpedo but not limited to operational torpedoes It also combined further letters and numbers to indicate type and features of the torpedo I Pressluft Dampfgemisch Antrieb pressurized air steam engine II Ingolin Antrieb use of hydrogen peroxide as oxygen carrier A Tiefen und Winkeleinstellung von Hand manual setting of depth and steering B Elektrische Tiefen und Winkeleinstellung electric setting of depth and steering i e possible to change in flight C Programmsteuerung program steering 1 Speed of 40kn 2 Speed of 33kn 3 Speed of 24knWarheads edit Luftwaffe warheads were designated GK Gefechtskopf followed by a number and a small Arabic letter for variants Exerciseheads was designated UK Ubungskopf The various types of explosives are described under the section of Kriegsmarine warheads above Operational warheads weight type of explosive charge GK 1 200 kg S3 GK 2 180 kg S3 GK 2a 240 kg S3 GK 3 188 kg S17 GK 3a 250 kg S17Warheads in various state of development test and production by end of the war weight type of explosive charge GK 4 230 kg S18 GK 4a 220 kg S18 GK 5 175 kg S18 GK 6 180 kg S3 GK 9 165 kg S18 GK 50 300 kg S18Pistols edit Designations for Luftwaffe pistols used the same system as Kriegsmarine The following torpedopistols reached operational status with Luftwaffe during WW2 Pi F5 Nose mounted Luftwaffe adaption of the Kriegsmarine mechanical Pi G7A AZ pistol similar design with a reduced physical size Pi 30 Pi F5 with connector for activation by an additional top mounted magnetich mechanism Pi 42s Nose mounted mechanic mechanism in a Pi F5 housing without detonation arms whiskers Used in combination with the Pi 50 series top mounted magnetic pistols Pi 42s e1 Pi 42s with electrical detonators and an electric armingswitch controlled by the magnetic top mounted Pi 52 magnetic pistol Pi 45 Pi 42s with an inertia pendolum mechanism and electric detonators Used with and activated by the Pi 52 or Pi 65 top mounted magnetic mechanisms Pi 50 Italian top mounted SIC combined mechanical magnetic pistol Used for LT IA and LT IB torpedoes Similar design as the Kriegsmarine TZ 3 Pi 51 German produced magnetic version of the Italian SIC pistol Acted as a magnetic sensor and when activated triggered the electric detonators in the nose mounted mechanichal mechanism Pi 30 or Pi 42s Pi 52 Pi Wien Improved Pi 51 ready but never used before the war ended Pi 52a Improved Pi 52 for use in warheads with nose mounted acoustic seeker ready but never used before the war ended Pi 52b Adaption of the Pi 52 for use with Bombentorpedo BT ready but never used as the Bombentorpedoes never became operational Pi 60 Active top mounted magnetic mechanism developed from the Kriegsmarine TZ 6 Used with the nose mounted Pi 30 Pi 65 Luftwaffe adaption of the Kriegsmarine top mounted TZ 5 for use with the Pfau and Geier torpedoes active magnetic mechanism in combination with the nose mounted Pi 45 Ready but never used as the torpedoes were never fieldedBombentorpedoes edit Luftwaffe also developed a passive weapon called Bombentorpedo BT which was planned to replace the conventional torpedoes It was airdropped from a low height and relative short distance from the target would enter the water and travel the short remaining distance solely driven by its kinetic energy No BT s were ever fielded operationally Designation Weight Dimensions dia length Charge NotesBT200 220 kg 300mm 2395mm 100 kgBT400 435 kg 378mm 2946mm 200 kgBT700A 780 kg 426mm 3500mm 330 kgBT700B 755 kg 456mm 3358mm 320 kgBT1000 1180 kg 480mm 4240mm 710 kg Variant fitted with a rocket engine but the design was not successful BT1400 1510 kg 620mm 4560mm 920 kgBT1850 1923 kg 620mm 4690mm 1050 kgGerman torpedo platforms Torpedotrager editKriegsmarine edit Submarines U Boote Motor torpedo boats S Boote Schnellboote or E Boats as designated by the Royal Navy Larger surface vessels like battleships Schlachtschiffe cruisers Kreuzer Panzerschiffe destroyers Zerstorer escorts corvettes frigates Torpedoboote Various types of irregular surface vessels like auxiliary cruisers raiders Hilfskreuzer and Q ships Fortified shore based batteries Torpedosperrbatterie Various temporary torpedo batteries were established at strategic locations for a period of time for instance as a substitute until a more permanent battery was established or as a temporary defence for an improvised naval base etc These batteries varied from single to multiple tube launchers placed on quay pier suitable spot on the ground or on small anchored boats barges schwimmende Batterie An S Boot anchored in fixed locations with its bow and thus its torpedo tubes facing one direction could also serve in this role Typical armament for shore based and temporary batteries were tubes from dismantled surface vessels 533mm Zwilling Drilling or Vierling Rohrsatze Beutewaffe i e tubes torpedoes captured from the enemy or older equipment from World War I Luftwaffe edit Various aircraft designed for configured as torpedo carriers Heinkel He 59 Obsolete only in service from 1937 to ca 1940 capacity 1 torpedo Arado Ar 95 A Limited number intended as a carrier based torpedobomber but was obsolete by 1940 capacity 1 torpedo Arado Ar 195 Intended as a carrier based torpedobomber only a few prototypes used for testing in competition with the Fi 176 never used operationally capacity 1 torpedo Fieseler Fi 167 A Intended as a carrier based torpedobomber only a pre production series built and tested towards the Ar 195 capacity 1 torpedo Dornier Do 22 A few produced for export never used by Luftwaffe capacity 1 torpedo Blohm amp Voss Ha 140 Only a few prototypes used for testing in competition with the He 115 capacity 1 torpedo Heinkel He 115 Luftwaffe s first modern torpedobomber In service from 1940 to 1942 capacity 1 torpedo Junkers Ju 87 C Experimental torpedobomber intended for carrier operations Never used operationally capacity 1 torpedo Heinkel 111 J Only a few built for torpedo trials in 1938 but ended up being used for reconnaissance capacity 2 torpedoes Heinkel 111 H The main standard German torpedobomber in service from 1941 and throughout WW2 capacity 2 torpedoes Junkers Ju 88 A Standard German torpedobomber together with the He 111 H in service from 1942 and throughout WW2 capacity 2 torpedoes Junkers 188 E Standard German torpedobomber introduced to service in 1944 capacity 2 torpedoes Focke Wulf Fw 200 C Experimental torpedobomber only used for one operation in 1941 capacity 2 or 4 torpedoes Focke Wulf Fw 190 A Experimental torpedobomber tested in 1943 Never used operationally capacity 1 torpedo Focke Wulf Fw 190 F Experimental torpedobomber tested in 1943 Never used operationally capacity 1 torpedo Heinkel 177 A 5 Experimental torpedobomber Never used operationally capacity 2 or 4 torpedoes Heinkel 177 R 6 Experimental torpedobomber Never used operationally capacity 2 or 4 torpedoes Messerschmitt Me 410 B Experimental torpedobomber tested in 1944 Never used operationally capacity 1 torpedo Dornier Do 217 E Planned experimental torpedobomber intended for use with new torpedodesigns in development with advanced controls Never used operationally capacity 2 or 4 torpedoes Dornier Do 217 K Planned experimental torpedobomber intended for use with new torpedodesigns in development with advanced controls Never used operationally capacity 2 or 4 torpedoes Dornier Do 217 M Planned experimental torpedobomber intended for use with new torpedodesigns in development with advanced controls Never used operationally capacity 2 or 4 torpedoes Fokker T VIII W Dutch torpedobomber Beutewaffe never used operationally as torpedobomber by Luftwaffe capacity 1 torpedo References editBundesmarine Deutsche Unterwasserwaffen Torpedos 1967 German translation of U S Navy Ordnance Pamphlet 1673B Bundesmarine Torpedo Zunder der Deutschen Marine von 1914 bis 1968 mit historischen Ruckblick Band 1 ca 1975 Torpedo Versuch Anstalt Eckernforde TVA E Short survey of the course of Torpedo Development from T1 to the newest types 1946 post war report for the Royal Navy Royal Navy B R 1972 German torpedoes and development of German torpedo control 1952 Combined Intelligence Objectives Subcommittee Evaluation Report 167 Details of Contents of Microfilm on Captured Documents Pertaining to German Torpedo Developments 1945 Wehrmacht Kriegsmarine Technische Dienstvorschrift Nr 194 Torpedo Kopf Pistolen Tabelle 1944 Wehrmacht Kriegsmarine Various torpedo handbooks and regulations Marine Dienstvorschriften Wehrmacht Luftwaffe Various torpedo handbooks and regulations Luftwaffen Dienstvorschriften Wehrmacht Kriegsmarine Torpedoinspektion Chemisch Physikalische Versuchsanstalt der Marine Einfuhrung in das Unterwasser Sprengwesen Band 1 1945 U S Navy Ordnance Pamphlet 1666 German Explosive Ordnance Volume 1 1946 Eberhard Rossler Die Torpedos der deutschen U Boote 2 ed 2005 ISBN 3 8132 0842 7 Friedrich Lauck Der Lufttorpedo Entwicklung und Technik in Deutschland 1915 1945 1981 ISBN 3 7637 5230 7 Harold Thiele Luftwaffe Aerial Torpedo Aircraft and Operations in World War Two 2004 ISBN 1 902109 42 2 Fritz Hahn Deutsche Geheimwaffen 1939 1945 Flugzeugbewaffnungen 1963 David H Wright Thesis on German torpedo crisis in WW2 2004 Numerous allied reports and captured German documents from Kriegsmarine and Luftwaffe kept at various archival institutions and museums Primary sources The US National Archives NARA mainly Record Group 38 and Record Group 242 publication T 1022 the British National Archives TNA mainly Royal Navy Admiralty record groups 213 290 and 292 the German National Archives Ba the Norwegian National Archives RA and the Norwegian Naval Museum MMU Retrieved from https en wikipedia org w index php title List of World War II torpedoes of Germany amp oldid 1217167820 Program steering, wikipedia, wiki, book, books, library,

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