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Lichtenstein radar

April 12, 2024

The Lichtenstein radar was among the earliest airborne radars available to the Luftwaffe in World War II and the first one used exclusively for air interception. Developed by Telefunken, it was available in at least four major revisions, called FuG 202 Lichtenstein B/C, FuG 212 Lichtenstein C-1, FuG 220 Lichtenstein SN-2 and the very rarely used FuG 228 Lichtenstein SN-3. (FuG is short for Funk-Gerät, radio set). The Lichtenstein series remained the only widely deployed airborne interception radar used by the Germans on their night fighters during the war — the competing FuG 216 through 218 Neptun mid-VHF band radar systems were meant as a potentially more versatile stop-gap system through 1944, until the microwave-based FuG 240 "Berlin" could be mass-produced; the Berlin system was still being tested when the war ended.

A Ju 88R night fighter with the full Matratze aerial setup for the Lichtenstein B/C UHF band radar.
A Bf 110 G-4 with first-generation FuG 220 and centrally-mounted short-range FuG 202
Lichtenstein UHF-band
cathode-ray display:
 • The left tube indicated other aircraft ahead as bumps.
 • The centre tube indicated range to a specific target and whether they were higher or lower.
 • The right tube indicated whether the target was to left or right.
A "pair" of the "subsets" for an earlier Lichtenstein B/C or C-1 "mattress" UHF radar antenna system.
A closeup shot of the same sort of dual-radar antenna installation
A Bf 110 G-4 in the RAF Museum in Hendon, with second-generation FuG 220 Hirschgeweih antennas, without the short-range FuG 202

FuG 202 Lichtenstein B/C edit

Early FuG 202 Lichtenstein B/C units were not deployed until 1942. They operated at a maximum RF output power of 1.5 kW, on the 61 cm wavelength (490 MHz, or low UHF band), requiring complex Matratze (mattress) antennas, consisting of thirty-two dipole elements, mounted in four groups of eight, each at the forward end of one of four forward-projecting masts.

FuG 212 Lichtenstein C-1 edit

During 1943 the Lichtenstein B/C was improved as the FuG 212 Lichtenstein C-1, with longer range and wider angle of view, still operating at UHF Frequencies between 420 and 480 MHz and still using the complex Matratze aerial set. By this point in the war, the British had become experts on jamming German radars. Luftwaffe aircrew of a B/C-equipped Ju 88 R-1 night fighter, Werknummer 360 043, defected in May 1943 and landed at RAF Dyce in Scotland,[1] presenting a working example of the German radar. The aircraft itself is still in existence as an RAF Museum exhibit in the UK. The subsequent refinement of 'Window' (known as Düppel by the Luftwaffe, from the Berlin suburb near where the German version was developed) rendered Lichtenstein B/C almost useless for several crucial weeks.

FuG 220 Lichtenstein SN-2 edit

By late 1943, the Luftwaffe was starting to deploy the greatly improved FuG 220 Lichtenstein SN-2, operating on a lower frequency of 90 MHz (lower end of the US VHF FM broadcast band) which was far less affected by electronic jamming, but this required the much larger Hirschgeweih (stag's antlers) antennas,[2] with only eight dipole elements, looking like a much-enlarged version of what occupied the forward end of each one of the earlier quadruple Matratze masts. This aerial setup also produced tremendous drag and slowed the operating aircraft by up to 50 km/h (30 mph).

The first SN-2 set had a problem with a huge minimum range of 900 meters, initially requiring the retention of a supplementary B/C or C-1 set with its full set of four Matratze masts, but the alarming drag that full sets of both types of antennas caused, from both radars being installed, later changed the requirement to only a "one-quarter" subset of the earlier Matratze array at the end of a single mast, centrally mounted on the nose of the aircraft when the BC or C-1 UHF radar remained installed. Improvements in early 1944 led to newer SN-2 versions with lower minimum range, which allowed the older UHF radar system to be removed entirely.

In July 1944, the newest version of the SN-2 radar fell into Allied hands when a fully equipped Ju 88 G-1, of 7 Staffel/NJG 2, flew the wrong way on a landing beacon and landed at RAF Woodbridge in England by accident, with the crew not realising the mistake until it was too late to destroy the radar or IFF gear. This led to successful jamming of several frequency bands of the FuG 220 (I to III, 72, 81 and 90 MHz), and a partial adoption of the use of the low-to-mid VHF band 170 MHz FuG 216 and 217 Neptun radar — which used eight shorter-length dipoles in the same "stag's antlers" layout for its frequency ranges than the SN-2 did — but several other bands that the SN-2 used were still operational. After the Allied jammings the FuG 220 antenna setup was optimized for the still-operational bands, the 90-degree vertical dipole setup was changed to a 45-degree diagonal setup.

Late-war developments edit

Late in 1944, the Morgenstern (Morningstar) antenna, comprising a doubled set of two Yagi antenna arrays at 90° angles to each other, on a central, forward projecting mast was developed, and used by both the SN-2 and Neptun radar sets. This was just compact enough to fit into the nose of a Ju 88G, and was covered with a rubber-coated, wooden conical radome with the extreme tip of each element barely protruding above the surface. Further development led to the FuG 228 Lichtenstein SN-3 radar set but this saw little to no service. A 9 cm wavelength system known as FuG 240 Berlin was developed, based on captured examples of the Allies' cavity magnetron technology but saw little to no operational use.

Operational history and Allied countermeasures edit

On the night of 8/9 August 1941, Ludwig Becker and his radio operator (Bordfunker) Josef Staub, became the first Luftwaffe night fighter crew to intercept an enemy bomber using airborne radar. Flying Dornier Do 215 B-5 of 4.Staffel/NJG 1 "G9+OM" equipped with the FuG 202 Lichtenstein B/C radar, they tracked and claimed a Vickers Wellington bomber shot down.[3][4][5] The aircraft shot down was Wellington T2625 GR-B which crashed near Bunde.[6]

The British knew in 1942 that Luftwaffe night fighters were having unprecedented success tracking aircraft. A specialist team was set up to attempt to identify the electronic characteristics of any German airborne apparatus. A Vickers Wellington bomber was adapted, with a Technical Officer and monitoring equipment in the fuselage. This aircraft flew on bombing raids as a decoy, hoping to be intercepted. In December 1942, on the 18th sortie, it was tracked and intercepted by a Luftwaffe night fighter, sustaining heavy damage and then ditching in the sea off Kent, England.[7] The aircrew transmitted and brought back the electronic data, surviving the ditching. The electronics specialist, Pilot Officer Jordan, was awarded the Distinguished Service Order, unusual for that rank of officer.[8]

Following the capture in May 1943 of the Ju 88 R-1, Werknummer 360 043—factory number that was equipped with it, the Allies were able to jam and track the early FuG 202 and 212 sets by the summer of 1943. During several months in this period they rendered these sets almost useless by blinding them with Window, termed Düppel by the Germans. Full jamming of the SN-2 took longer but was finally accomplished by the Allies following the mistaken landing due to a navigation error of a Ju 88G-1 night fighter from 7.Staffel/NJG 2 at RAF Woodbridge, equipped with both the Flensburg radar detector and the SN-2 radar on July 13, 1944, compromising both systems to the Allies.[9] Some Allied aircraft were then equipped with 'Piperack' which countered the Lichtenstein SN-2 aerial intercept radar.[10][page needed] Much more dangerous were Mosquito intruders equipped with a device called Serrate to allow them to track German night fighters by emissions from their Lichtenstein B/C, C-1 or SN-2 sets.

The corkscrew manoeuvre was developed to remove an attacked heavy bomber from within the 60-degree cone of coverage of an attacking night fighter's Lichtenstein radar. The technique was developed using the WkNr. 360 043, early model UHF-band Lichtenstein C-1-equipped, Ju 88R-1 night fighter, that had landed at RAF Dyce in April 1943 by its crew of defectors. It was also later flown in tests by the RAF enemy aircraft evaluation unit, 1426 Flight, known colloquially as the Rafwaffe.

See also edit

References edit

Citations edit

  1. ^ Aircrew Remembered.
  2. ^ "Lichtenstein". www.radartutorial.eu. Retrieved 22 May 2022.
  3. ^ Bekker 1994, pp. 213–214.
  4. ^ Bowman 2015, p. 118.
  5. ^ Boiten 1997, p. 61.
  6. ^ Kirby 2015, Berlin—12 August 1941.
  7. ^ Barker 1955, pp. 143–162.
  8. ^ "No. 35858". The London Gazette (Supplement). 8 January 1943. p. 267.
  9. ^ Price 1967, pp. 12–13.
  10. ^ Peden 1997.

Bibliography edit

  • Barker, Ralph (1955). Down in the Drink. London. OCLC 556826984.{{cite book}}: CS1 maint: location missing publisher (link)
  • Bekker, Cajus (1994). The Luftwaffe War Diaries – The German Air Force in World War II. New York: Da Capo Press. ISBN 978-0-306-80604-9.
  • Boiten, Theo (1997). Nachtjagd: the night fighter versus bomber war over the Third Reich, 1939–45. London: Crowood Press. ISBN 978-1-86126-086-4.
  • Bowman, Martin (2015). The Wellington Bomber. Barnsley, South Yorkshire: Pen and Sword Books. ISBN 978-1-78383-176-0.
  • Kirby, Robert (2015). The Avro Manchester: The legend Behind the Lancaster. Fonthill Media. ISBN 978-1-78155-285-8.
  • Peden, Murray (1997). A thousand shall fall (Updated ed.). Toronto: Stoddart. ISBN 978-0-7737-5967-1.
  • Price, Alfred (1967). . Leatherhead, Surrey UK: Profile Publications. OCLC 442187574. Archived from the original on March 29, 2014. Retrieved April 5, 2014.
  • "The Defection of Oblt. Herbert Schmid and his Ju 88 to the United Kingdom". Aircrew Remembered. Retrieved 10 July 2019.

External links edit

 
Wikimedia Commons has media related to Lichtenstein radar.
  • German language page on Lichtenstein UHF-band Matratze Antenna unit 2018-08-04 at the Wayback Machine
  • Details of B/C, C-1 and SN-2 models of Lichtenstein radar sets
  • A picture of the Lichtenstein-equipped Ju 88G-1 that landed at RAF Woodbridge
  • A video explaining the working principles behind the lichtenstein radar

April 12, 2024
lichtenstein, radar, among, earliest, airborne, radars, available, luftwaffe, world, first, used, exclusively, interception, developed, telefunken, available, least, four, major, revisions, called, lichtenstein, lichtenstein, lichtenstein, very, rarely, used, . The Lichtenstein radar was among the earliest airborne radars available to the Luftwaffe in World War II and the first one used exclusively for air interception Developed by Telefunken it was available in at least four major revisions called FuG 202 Lichtenstein B C FuG 212 Lichtenstein C 1 FuG 220 Lichtenstein SN 2 and the very rarely used FuG 228 Lichtenstein SN 3 FuG is short for Funk Gerat radio set The Lichtenstein series remained the only widely deployed airborne interception radar used by the Germans on their night fighters during the war the competing FuG 216 through 218 Neptun mid VHF band radar systems were meant as a potentially more versatile stop gap system through 1944 until the microwave based FuG 240 Berlin could be mass produced the Berlin system was still being tested when the war ended A Ju 88R night fighter with the full Matratze aerial setup for the Lichtenstein B C UHF band radar A Bf 110 G 4 with first generation FuG 220 and centrally mounted short range FuG 202Lichtenstein UHF bandcathode ray display The left tube indicated other aircraft ahead as bumps The centre tube indicated range to a specific target and whether they were higher or lower The right tube indicated whether the target was to left or right A pair of the subsets for an earlier Lichtenstein B C or C 1 mattress UHF radar antenna system A closeup shot of the same sort of dual radar antenna installationA Bf 110 G 4 in the RAF Museum in Hendon with second generation FuG 220 Hirschgeweih antennas without the short range FuG 202 Contents 1 FuG 202 Lichtenstein B C 2 FuG 212 Lichtenstein C 1 3 FuG 220 Lichtenstein SN 2 4 Late war developments 5 Operational history and Allied countermeasures 6 See also 7 References 7 1 Citations 7 2 Bibliography 8 External linksFuG 202 Lichtenstein B C editEarly FuG 202 Lichtenstein B C units were not deployed until 1942 They operated at a maximum RF output power of 1 5 kW on the 61 cm wavelength 490 MHz or low UHF band requiring complex Matratze mattress antennas consisting of thirty two dipole elements mounted in four groups of eight each at the forward end of one of four forward projecting masts FuG 212 Lichtenstein C 1 editDuring 1943 the Lichtenstein B C was improved as the FuG 212 Lichtenstein C 1 with longer range and wider angle of view still operating at UHF Frequencies between 420 and 480 MHz and still using the complex Matratze aerial set By this point in the war the British had become experts on jamming German radars Luftwaffe aircrew of a B C equipped Ju 88 R 1 night fighter Werknummer 360 043 defected in May 1943 and landed at RAF Dyce in Scotland 1 presenting a working example of the German radar The aircraft itself is still in existence as an RAF Museum exhibit in the UK The subsequent refinement of Window known as Duppel by the Luftwaffe from the Berlin suburb near where the German version was developed rendered Lichtenstein B C almost useless for several crucial weeks FuG 220 Lichtenstein SN 2 editBy late 1943 the Luftwaffe was starting to deploy the greatly improved FuG 220 Lichtenstein SN 2 operating on a lower frequency of 90 MHz lower end of the US VHF FM broadcast band which was far less affected by electronic jamming but this required the much larger Hirschgeweih stag s antlers antennas 2 with only eight dipole elements looking like a much enlarged version of what occupied the forward end of each one of the earlier quadruple Matratze masts This aerial setup also produced tremendous drag and slowed the operating aircraft by up to 50 km h 30 mph The first SN 2 set had a problem with a huge minimum range of 900 meters initially requiring the retention of a supplementary B C or C 1 set with its full set of four Matratze masts but the alarming drag that full sets of both types of antennas caused from both radars being installed later changed the requirement to only a one quarter subset of the earlier Matratze array at the end of a single mast centrally mounted on the nose of the aircraft when the BC or C 1 UHF radar remained installed Improvements in early 1944 led to newer SN 2 versions with lower minimum range which allowed the older UHF radar system to be removed entirely In July 1944 the newest version of the SN 2 radar fell into Allied hands when a fully equipped Ju 88 G 1 of 7 Staffel NJG 2 flew the wrong way on a landing beacon and landed at RAF Woodbridge in England by accident with the crew not realising the mistake until it was too late to destroy the radar or IFF gear This led to successful jamming of several frequency bands of the FuG 220 I to III 72 81 and 90 MHz and a partial adoption of the use of the low to mid VHF band 170 MHz FuG 216 and 217 Neptun radar which used eight shorter length dipoles in the same stag s antlers layout for its frequency ranges than the SN 2 did but several other bands that the SN 2 used were still operational After the Allied jammings the FuG 220 antenna setup was optimized for the still operational bands the 90 degree vertical dipole setup was changed to a 45 degree diagonal setup Late war developments editLate in 1944 the Morgenstern Morningstar antenna comprising a doubled set of two Yagi antenna arrays at 90 angles to each other on a central forward projecting mast was developed and used by both the SN 2 and Neptun radar sets This was just compact enough to fit into the nose of a Ju 88G and was covered with a rubber coated wooden conical radome with the extreme tip of each element barely protruding above the surface Further development led to the FuG 228 Lichtenstein SN 3 radar set but this saw little to no service A 9 cm wavelength system known as FuG 240 Berlin was developed based on captured examples of the Allies cavity magnetron technology but saw little to no operational use Operational history and Allied countermeasures editOn the night of 8 9 August 1941 Ludwig Becker and his radio operator Bordfunker Josef Staub became the first Luftwaffe night fighter crew to intercept an enemy bomber using airborne radar Flying Dornier Do 215 B 5 of 4 Staffel NJG 1 G9 OM equipped with the FuG 202 Lichtenstein B C radar they tracked and claimed a Vickers Wellington bomber shot down 3 4 5 The aircraft shot down was Wellington T2625 GR B which crashed near Bunde 6 The British knew in 1942 that Luftwaffe night fighters were having unprecedented success tracking aircraft A specialist team was set up to attempt to identify the electronic characteristics of any German airborne apparatus A Vickers Wellington bomber was adapted with a Technical Officer and monitoring equipment in the fuselage This aircraft flew on bombing raids as a decoy hoping to be intercepted In December 1942 on the 18th sortie it was tracked and intercepted by a Luftwaffe night fighter sustaining heavy damage and then ditching in the sea off Kent England 7 The aircrew transmitted and brought back the electronic data surviving the ditching The electronics specialist Pilot Officer Jordan was awarded the Distinguished Service Order unusual for that rank of officer 8 Following the capture in May 1943 of the Ju 88 R 1 Werknummer 360 043 factory number that was equipped with it the Allies were able to jam and track the early FuG 202 and 212 sets by the summer of 1943 During several months in this period they rendered these sets almost useless by blinding them with Window termed Duppel by the Germans Full jamming of the SN 2 took longer but was finally accomplished by the Allies following the mistaken landing due to a navigation error of a Ju 88G 1 night fighter from 7 Staffel NJG 2 at RAF Woodbridge equipped with both the Flensburg radar detector and the SN 2 radar on July 13 1944 compromising both systems to the Allies 9 Some Allied aircraft were then equipped with Piperack which countered the Lichtenstein SN 2 aerial intercept radar 10 page needed Much more dangerous were Mosquito intruders equipped with a device called Serrate to allow them to track German night fighters by emissions from their Lichtenstein B C C 1 or SN 2 sets The corkscrew manoeuvre was developed to remove an attacked heavy bomber from within the 60 degree cone of coverage of an attacking night fighter s Lichtenstein radar The technique was developed using the WkNr 360 043 early model UHF band Lichtenstein C 1 equipped Ju 88R 1 night fighter that had landed at RAF Dyce in April 1943 by its crew of defectors It was also later flown in tests by the RAF enemy aircraft evaluation unit 1426 Flight known colloquially as the Rafwaffe See also editNo 100 Group RAF List of WW II Japanese airborne radar systemsReferences editCitations edit Aircrew Remembered Lichtenstein www radartutorial eu Retrieved 22 May 2022 Bekker 1994 pp 213 214 Bowman 2015 p 118 Boiten 1997 p 61 Kirby 2015 Berlin 12 August 1941 Barker 1955 pp 143 162 No 35858 The London Gazette Supplement 8 January 1943 p 267 Price 1967 pp 12 13 Peden 1997 Bibliography edit Barker Ralph 1955 Down in the Drink London OCLC 556826984 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Bekker Cajus 1994 The Luftwaffe War Diaries The German Air Force in World War II New York Da Capo Press ISBN 978 0 306 80604 9 Boiten Theo 1997 Nachtjagd the night fighter versus bomber war over the Third Reich 1939 45 London Crowood Press ISBN 978 1 86126 086 4 Bowman Martin 2015 The Wellington Bomber Barnsley South Yorkshire Pen and Sword Books ISBN 978 1 78383 176 0 Kirby Robert 2015 The Avro Manchester The legend Behind the Lancaster Fonthill Media ISBN 978 1 78155 285 8 Peden Murray 1997 A thousand shall fall Updated ed Toronto Stoddart ISBN 978 0 7737 5967 1 Price Alfred 1967 Aircraft in Profile No 148 The Junkers Ju 88 Night Fighters Leatherhead Surrey UK Profile Publications OCLC 442187574 Archived from the original on March 29 2014 Retrieved April 5 2014 The Defection of Oblt Herbert Schmid and his Ju 88 to the United Kingdom Aircrew Remembered Retrieved 10 July 2019 External links edit nbsp Wikimedia Commons has media related to Lichtenstein radar German language page on Lichtenstein UHF band Matratze Antenna unit Archived 2018 08 04 at the Wayback Machine Details of B C C 1 and SN 2 models of Lichtenstein radar sets https web archive org web 20120205234017 http www 100 jahre radar de vortraege Holpp The Century of Radar pdf A picture of the Lichtenstein equipped Ju 88G 1 that landed at RAF Woodbridge A video explaining the working principles behind the lichtenstein radar Retrieved from https en wikipedia org w index php title Lichtenstein radar amp oldid 1211007413, wikipedia, wiki, book, books, library,

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