List of World War II British naval radar
Template:Short description Template:Use dmy dates Template:Use British English This page is a List of World War II British naval radar.
Nomenclature
These sets were initially numbered as wireless telegraph (w/t) sets, but a distinguishing prefix of "2" was soon added. Metric sets were numbered in the 28x and 29x series. When centimetric sets arrived with the advent of the cavity magnetron, they were numbered by subtracting 10 from the metric type number they were based on (e.g. the metric Type 284 was replaced by the centimetric Type 274). This was not always possible however, as Types 271 - 274 were already in use for original centimetric sets, thus some metric sets in the Type 28x range had 20 subtracted (e.g. the metric Type 282 was replaced by the centimetric Type 262). Aerial outfits were given a three letter identifier that began with "A".
Suffixing letters indicated the following;
- B - conversion of sets with separate transmitting (Tx) and receiving (Rx) antennas to single antenna operation.
- M, P, Q - major set modifications
- R - addition of range-taking panel
- U - modification to suit coastal operations
- W - modification to submarine use
- X, Y, Z - experimental modifications
Sets
ASV II
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| ASV Mark I/Mark II | 7 | 176 | 1700 | 1940 |
The first successful air-to-surface-vessel (ASV) radar, from early 1940. ASV II was a re-packaged ASV I but otherwise similar. ASV II radar allowed Fleet Air Arm (FAA) Swordfish from the carriers Script error: No such module "WPSHIPS utilities". and Script error: No such module "WPSHIPS utilities". to locate and attack the German battleship Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". in May 1941.[1]
ASV III
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| ASV III/XI | 50 | 3000 | 100 | 1943 |
The first successful airborne microwave radar. Used on FAA Swordfish and Barracuda aircraft, and many RAF Coastal Command aircraft. High-resolution centimetric radar could detect even small objects, such as the periscope or snorkel of a submerged submarine, making it a highly efficient tool for Anti-submarine warfare (ASW). The Mk XI was a further development exclusively for the FAA.[2]
Type 79
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 79 | 70 | 42.8 | 7,000 | 1938 |
Based on the Type 79 w/t, first fitted to Script error: No such module "WPSHIPS utilities". then Script error: No such module "WPSHIPS utilities". and later Script error: No such module "WPSHIPS utilities".; (40 sets ordered)[3]
Type 86
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 86M | APH | 1962 |
Fore-runner to Type 286.Script error: No such module "Unsubst".
Type 262
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 262 | APE | 30 | 9,670 | 31 |
Centimetric fire-control set for 40 mm Bofors weapons. Fitted to Close Range Blind Fire (CRBF) director and STAAG weapon mount. Dish antenna spun off-centre at high speed to produce scanning cone, target lock and blind fire possible.Script error: No such module "Unsubst".
Type 267
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 267 | APT | 100 | 214 | 1,400 |
Air warning set for submarines replacing Type 291W.Script error: No such module "Unsubst".
Type 268
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 268 | AQN | 40 | 9,386 | 32 |
First X band naval radar. Used on small vessels for target indication and navigation.
Type 271
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| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 271 | 5 | 2,997 | 100 | March 1941 | |
| 271P | 90 | 2,997 | 100 | 1943 | |
| 271Q | 90 | 2,997 | 100 | 1943 |
Type 271 was the original naval centimetric target indication radar, later fitted with a plan position indicator. Type 271 had separate transmit and receive aerials, small "cheese" antennas stacked on top of each other. The antenna array was carried in a distinctive protective perspex "lantern", and initially had to be fitted directly onto the radar office roof due to limitations in coaxial cabling (until suitable waveguides had been developed). The Type 271 was a vitally important war weapon, as for the first time it allowed escort ships to reliably detect surfaced U-boats or even just their periscopes. It was first fitted in Script error: No such module "WPSHIPS utilities".. 350 sets were ordered. Modification Q was much more powerful and known as the "Centimetric Mark IV". Mark V was even more powerful and later renamed Type 277.[4] Type 271 was fitted widely to escort vessels of corvette and frigate size, with the unsuccessful Type 272 intended for destroyers and the Type 273 for cruisers and battleships.
Type 272
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 272 | 90 | 2,997 | 100 | 1941 |
A version of the Type 271 with a cable-drive and more powerful receiver allowing the antenna to be mounted remotely from the radar office. Was not considered successful and not widely used.
Type 273
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 273 | AQN | 90 | 2,997 | 100 | 1941 |
A version of the 271 with a much larger Script error: No such module "convert". diameter full-parabolic antennas instead of the smaller clipped "cheese" antennas of the 271. The antennas were mounted on a stabilized mounting and placed high on the mast on cruiser and battleship sized ships. The larger antennas more than made up for the wiring losses seen in the 272, and the resulting system was even more powerful than the original 271. Upgrades followed those of the original 271 series. In the Battle of the North Cape, Script error: No such module "WPSHIPS utilities". identified the target of Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". at Script error: No such module "convert". using her Type 273 set, receiving a solid signal on the Scharnhorst's mast while the ship was still well below the radar horizon.[5] Replaced by the Type 276.
Type 274
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 274 | AUM | 500 | 3,294 | 91 | 1944 |
Centimetric replacement for Type 284. Main armament ranging and shot-spotting set for cruisers and battleships. "Double cheese" antennas. Most notably in place on HMS Belfast
Type 275
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 275 | 400 | 3,526 | 85 | 1944 |
Centimetric replacement for Type 285. Destroyer main armament and capital ship secondary fire control set. Fitted to directors HACS Mark VI and Mark 6M and modified American Mark 37. Separate Tx and Rx dishes.
Type 276
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 276 | AUS / AUJ | 500 | 2,997 | 100 | 1944 |
Combined the electronics of the Type 277 and the stabilized mounting of the Type 273. Reduced Script error: No such module "convert". antennas in aerial outfit AUS.
Type 277
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| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 277P | AUK | 400 | 2,997 | 100 | 1943 |
| 277Q | ANU | 500 | 2,997 | 100 | 1944 |
Originally known as Type 271 Mark V, this was a significant improvement on the original design and was later renamed to make this clear. Used a single transmit/receive antenna, waveguides instead of coaxial cables and a much more powerful magnetron that considerably improved all-around performance. Aerial Outfit AUK was a parabolic dish, ANU was a cropped paraboloid. Fitted on a "nodding" mount, often used as a height finding set. Superseded in service by Type 278 height finder in Script error: No such module "WPSHIPS utilities".s.
Type 279
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| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 279 | 70 | 39.9 | 7,450 | 1940 | |
| 279M | 70 | 39.9 | 7,450 | 1941 |
Follow on from Type 79, metric air warning set. Had separate Tx and Rx antennas, combined in Type 279M to single antenna operation. This set also had a secondary surface search with surface and aerial gunnery capability and used a Precision Ranging Panel, which passed accurate radar ranges directly to the HACS table (analogue computer).[6][7]
Type 280
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 280 | 25 | 85 | 3,500 | 1940 |
Metric air warning set with separate Tx / Rx antennas. Based upon Army GL Mark I set, fitted to Script error: No such module "WPSHIPS utilities".s converted to anti-aircraft ships. This set used a Precision Ranging Panel, which passed accurate radar ranges directly to the HACS table (analogue computer).[8]
Type 281
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 281 | AQB | 350 | 85 | 3,500 | 1940 |
Metric air warning set with separate Tx / Rx antennas. Type 281B had combined Tx / Rx antenna. First fitted to Script error: No such module "WPSHIPS utilities". then Script error: No such module "WPSHIPS utilities".[3] This set also had a secondary surface search function along with aerial and surface gunnery capability and used a Precision Ranging Panel.[6] The Type 281 ranging system allowed the user to select either a Template:Cvt or a Template:Cvt range display with range accuracies of Template:Cvt RMS, respectively. Aerial target ranges were passed directly to the HACS table (fire control computer).[8]
Type 282
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (cm) | In service |
|---|---|---|---|---|---|
| 282 | 25 | 600 | 50 | 1941 |
Decimetric (50 cm) ranging set for Bofors 40 mm and "multiple pom-pom" fire control. Fitted on Bofors mounting Mark IV "Hazemeyer" and "Pom-pom Director Mk IV", twin Yagi antennas. Type 282 used a mechanical ranging panel and a 0-5000yd display. Type 282M increased transmission power to 150 kW, used a 0 - 6000yd display and introduced Beam Switching, while Type 282P introduced a Precision Ranging Panel.[8]
Type 283
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (cm) | In service |
|---|---|---|---|---|---|
| 283 | 25 | 600 | 50 | 1942 |
Main armament anti-aircraft barrage fire control set fitted to "barrage director" for cruiser Script error: No such module "convert". and battleship guns. This set used a Precision Ranging Panel and was used to fire the guns automatically using the Automatic Barrage Unit.[8]
Type 284
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (cm) | In service |
|---|---|---|---|---|---|
| 284 | ASF | 25 | 600 | 50 | 1940 |
| 284M | ASF | 150 | 600 | 50 | 1941 |
| 284P | ASF | 150 | 600 | 50 | 1942 |
Main armament ranging and shot-spotting set for cruisers and battleships with lobe switching beginning with Type 284M[8] to increase accuracy of bearing readings. Prototype fitted on Script error: No such module "WPSHIPS utilities".. Script error: No such module "WPSHIPS utilities". received first production set. Used by Script error: No such module "WPSHIPS utilities". to shadow Bismarck.[9] Type 284P was instrumental in the Battle of the North Cape allowing Duke of York to attack Scharnhorst blind.[5]
Type 285
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (cm) | In service |
|---|---|---|---|---|---|
| 285 | 25 | 600 | 50 | 1941 | |
| 285M | 150 | 600 | 50 | 1941 | |
| 285P | 150 | 600 | 50 | 1942 |
Ranging set for anti-aircraft fire control, fitted to HACS directors and rangefinder-directors and used ranging panel L12. Type 285 with six element Yagi antenna with separate Tx / Rx. Type 285P with five element Yagi antenna with combined Tx / Rx function. The Type 285M could provide accurate ranges via the mechanical ranging panel, L12, and bearing information using lobe switching, but height finding was primitive and had to be calculated using maximum signal indication. As such it could not achieve a target lock, and could not offer blind fire capability. Type 285P introduced a Precision Ranging Panel and had 25yd RMS range accuracy.[8]
Type 286
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 286M | ATQ | 214 | 1,400 | 1940 |
Metric target indication set based upon RAF ASV (Air to Surface Vessel) Mark II set. Type 286M had fixed antennas, with a central Tx and an Rx on either side to give some indication of contact bearing. The antennas were fixed, scanning being achieved by conning the ship. Type 286PU and Type 286W were fixed antennas sets for coastal vessels and submarines respectively. Type 286PQ had a steerable combined Tx / Rx antenna from the Type 291 set.
Type 290
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 290 | 100 | 214 | 1,400 |
Metric target indication set, replacement for Type 286.Script error: No such module "Unsubst".
Type 291
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 291 | 100 | 214 | 1,400 | 1941 |
Metric air warning sets. Original Type 291 had a hand-steered antenna, replaced by Type 291M with power training and plan position indicator. U and W variants for coastal craft and submarines respectively.Script error: No such module "Unsubst".
Type 293
| Type | Aerial outfit | Peak power (kW) | Frequency (MHz) | Wavelength (mm) | In service |
|---|---|---|---|---|---|
| 293M | AUR | 500 | 2,997 | 100 | 1945 |
| 293P | AQR | 500 | 2,997 | 100 | 1945 |
| 293Q | ANS | 500 | 2,997 | 100 | 1945 |
Based on the same electronics as the Type 277/276, the Type 293 used a new antenna design intended to cover the area above the ship to provide air warning instead of surface search. Stabilised "cheese" antenna, Script error: No such module "convert". diameter in outfit AUR, upgraded to Script error: No such module "convert". in Type 293P (replaced all Type 293 and Type 276 sets) and to Script error: No such module "convert". in Type 293Q.
Precision Ranging Panel
The Precision Ranging Panel (PRP) was an electromechanical transmission and calculating system. The PRP allowed for accurate range determination, range rate determination using radar, and accurate transmission of radar ranges and range rates to fire control computers. The PRP used an electronic timing signal and pip matching to provide very accurate ranges.[8] It also used a power follow up to continuously transmit the correct range rate as long as the target maintained a steady course and speed.[8] The PRP was adapted from the British Army GL, Gun Laying, radar system, and first went to sea in 1939 aboard several C-class cruisers, using the Type 280 radar. By 1941 the PRP was a common feature on the Type 280, 279 and 281 radars, and by late 1941 began to appear on the type 282P, 284P and 285P radar systems.[6]
Mechanical Ranging Panel
The Type 282, 282M, 285, and 285M radars used a mechanical ranging panel that used a mechanical cursor placed over the ranging display, to estimate range and automatically transmitted the calculated range to either the HACS or FKC fire control computer. Type 285 used Ranging Panel L12 and this also featured range rate estimation with power follow up so that the ranging panel would continue to transmit the correct range without operator intervention as long as the target maintained a steady course at a constant speed.[8]
See also
Notes
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- ↑ Horan, Mark E. "With Gallantry and Determination" The Story of the Torpedoing of the Bismarck Template:Webarchive
- ↑ Gustin, Emmanuel British ASV Radar
- ↑ a b Macintyre, September 1967, p.75
- ↑ Macintyre, September 1967, p.80
- ↑ a b King George V class Battleships, Roger Chesneau, 2004, Stackpole Books, Template:ISBN
- ↑ a b c Howse, Radar at sea: The Royal Navy in World War II
- ↑ Script error: No such module "citation/CS1".
- ↑ a b c d e f g h i Weapon Control in the Royal Navy 1935–45, Pout, from The Application of Radar and other Electronic Systems in the Royal Navy in WW2 (Kingsley-editor)
- ↑ Macintyre, September 1967, p.78
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References
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