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Hub AI
Würzburg radar AI simulator
(@Würzburg radar_simulator)
Hub AI
Würzburg radar AI simulator
(@Würzburg radar_simulator)
Würzburg radar
The low-UHF band Würzburg radar was the primary ground-based tracking radar for the Wehrmacht's Luftwaffe and Kriegsmarine (German Navy) during World War II. Initial development took place before the war and the apparatus entered service in 1940. Eventually, over 4,000 Würzburgs of various models were produced. It took its name from the city of Würzburg in Bavaria.
There were two primary models of the system. The first Würzburg was a transportable model that could be folded for transit and then brought into operation quickly after emplacement and levelling. The A models began entering service in May 1940 and saw several updated versions over the next year to improve accuracy, notably the addition of conical scanning in the D model of 1941. The larger Würzburg-Riese (giant) was based on the D model but used a much larger parabolic reflector to further improve resolution at the cost of no longer being mobile.
As one of Germany's primary radars, the British spent considerable effort countering it. This culminated in February 1942 with Operation Biting, in which components of an operational A model were captured. Using information from these components, the Royal Air Force introduced "Window" chaff and a series of white noise radar jammers known as "Carpet" to interfere with their operation. Late in the war, the British introduced the first jammers using the more advanced angle deception jamming.
In January 1934, Telefunken met with German radar researchers, notably Dr. Rudolf Kühnhold of the Communications Research Institute of the Kriegsmarine and Dr. Hans Hollmann, an expert in microwaves, who informed them of their work on an early warning radar. Telefunken's director of research, Dr. Wilhelm Runge, was unimpressed and dismissed the idea as science fiction. The developers then went their own way and formed Gesellschaft für Elektroakustische und Mechanische Apparate (GEMA) eventually collaborating with Lorenz on the development of the Freya and Seetakt systems.
By the spring of 1935, GEMA's successes made it clear to Runge that the idea was workable after all, so he started a crash program at Telefunken to develop radar systems. With Lorenz already making progress on early warning devices, Runge had the Telefunken team concentrate on a short-range gun laying system instead. Management apparently felt it to be as uninteresting as Runge had a year earlier and assigned it a low priority for development. By the summer they had built a working experimental unit in the 50 cm band that was able to generate strong returns off a target Junkers Ju 52. By the next summer, the experimental set-up had been developed into a prototype known as the Darmstadt, which offered a range accuracy of 50 m (160 ft) at 5 km (3.1 mi), not nearly enough for gun laying. Attitudes changed in late 1938, when a full development contract was received from the Luftwaffe.
The resulting system, known as the FuMG 62, as well as the prototype system FuMG 39T Darmstadt were demonstrated to Hitler at Rechlin in July 1939. The Telefunken team developed an accurate system based on a klystron microwave tube operating in the range of 54–53 cm (553–566 MHz)—an extremely short wavelength for the time—with a pulse length of 2 microseconds, a peak power of 7–11 kW and a pulse repetition frequency (PRF) of 3,750 Hz. It had a maximum range of about 29 km (18 mi) and was accurate to about 25 m (82 ft) in range. Würzburg used a 3 m (10 ft) paraboloid dish antenna, which could be "folded" along the horizontal midline for travel on a wheeled trailer. The system was first accepted into service in 1940 and 4,000 of this basic layout were delivered.[citation needed]
Several versions of the basic Würzburg system were deployed over the course of the war. The first, Würzburg A, was operated manually and required the operators to pinpoint the target by maintaining a maximum signal on their oscilloscope display. Since the signal strength changed on its own for various reasons as well as being on or off target, this was inaccurate and generally required the use of a searchlight to spot the target once the radar had settled on an approximate position. Nevertheless, one of the first Würzburgs in service directly assisted in the shooting-down of an aircraft in May 1940 by orally relaying commands to a flak unit. An experimental Würzburg B added an infra-red detector for fine tuning, but in general these devices proved to be unusable and production was discontinued.
Würzburg C featured lobe switching to improve aiming accuracy. It sent the signal out of one of two dipole antennas placed slightly on either side of the centreline of the parabolic reflector. The signal was switched rapidly between the two dipoles, sending the signal slightly to one side of the line of sight or the other. After slightly delaying the signal from one of the dipoles, the returns were sent to an oscilloscope display. The result appeared as two closely separated blips which the operator attempted to keep at the same height on the display by turning the antenna towards the shorter blip. This system offered much faster feedback on changes in the target position and operators could achieve accuracy on the order of a degree. Changes in signal strength, due to changes in the reflection of the target, affected both lobes equally, eliminating common-mode reading errors. An almost identical system was used in the United States's first gun-laying radar, the SCR-268.
Würzburg radar
The low-UHF band Würzburg radar was the primary ground-based tracking radar for the Wehrmacht's Luftwaffe and Kriegsmarine (German Navy) during World War II. Initial development took place before the war and the apparatus entered service in 1940. Eventually, over 4,000 Würzburgs of various models were produced. It took its name from the city of Würzburg in Bavaria.
There were two primary models of the system. The first Würzburg was a transportable model that could be folded for transit and then brought into operation quickly after emplacement and levelling. The A models began entering service in May 1940 and saw several updated versions over the next year to improve accuracy, notably the addition of conical scanning in the D model of 1941. The larger Würzburg-Riese (giant) was based on the D model but used a much larger parabolic reflector to further improve resolution at the cost of no longer being mobile.
As one of Germany's primary radars, the British spent considerable effort countering it. This culminated in February 1942 with Operation Biting, in which components of an operational A model were captured. Using information from these components, the Royal Air Force introduced "Window" chaff and a series of white noise radar jammers known as "Carpet" to interfere with their operation. Late in the war, the British introduced the first jammers using the more advanced angle deception jamming.
In January 1934, Telefunken met with German radar researchers, notably Dr. Rudolf Kühnhold of the Communications Research Institute of the Kriegsmarine and Dr. Hans Hollmann, an expert in microwaves, who informed them of their work on an early warning radar. Telefunken's director of research, Dr. Wilhelm Runge, was unimpressed and dismissed the idea as science fiction. The developers then went their own way and formed Gesellschaft für Elektroakustische und Mechanische Apparate (GEMA) eventually collaborating with Lorenz on the development of the Freya and Seetakt systems.
By the spring of 1935, GEMA's successes made it clear to Runge that the idea was workable after all, so he started a crash program at Telefunken to develop radar systems. With Lorenz already making progress on early warning devices, Runge had the Telefunken team concentrate on a short-range gun laying system instead. Management apparently felt it to be as uninteresting as Runge had a year earlier and assigned it a low priority for development. By the summer they had built a working experimental unit in the 50 cm band that was able to generate strong returns off a target Junkers Ju 52. By the next summer, the experimental set-up had been developed into a prototype known as the Darmstadt, which offered a range accuracy of 50 m (160 ft) at 5 km (3.1 mi), not nearly enough for gun laying. Attitudes changed in late 1938, when a full development contract was received from the Luftwaffe.
The resulting system, known as the FuMG 62, as well as the prototype system FuMG 39T Darmstadt were demonstrated to Hitler at Rechlin in July 1939. The Telefunken team developed an accurate system based on a klystron microwave tube operating in the range of 54–53 cm (553–566 MHz)—an extremely short wavelength for the time—with a pulse length of 2 microseconds, a peak power of 7–11 kW and a pulse repetition frequency (PRF) of 3,750 Hz. It had a maximum range of about 29 km (18 mi) and was accurate to about 25 m (82 ft) in range. Würzburg used a 3 m (10 ft) paraboloid dish antenna, which could be "folded" along the horizontal midline for travel on a wheeled trailer. The system was first accepted into service in 1940 and 4,000 of this basic layout were delivered.[citation needed]
Several versions of the basic Würzburg system were deployed over the course of the war. The first, Würzburg A, was operated manually and required the operators to pinpoint the target by maintaining a maximum signal on their oscilloscope display. Since the signal strength changed on its own for various reasons as well as being on or off target, this was inaccurate and generally required the use of a searchlight to spot the target once the radar had settled on an approximate position. Nevertheless, one of the first Würzburgs in service directly assisted in the shooting-down of an aircraft in May 1940 by orally relaying commands to a flak unit. An experimental Würzburg B added an infra-red detector for fine tuning, but in general these devices proved to be unusable and production was discontinued.
Würzburg C featured lobe switching to improve aiming accuracy. It sent the signal out of one of two dipole antennas placed slightly on either side of the centreline of the parabolic reflector. The signal was switched rapidly between the two dipoles, sending the signal slightly to one side of the line of sight or the other. After slightly delaying the signal from one of the dipoles, the returns were sent to an oscilloscope display. The result appeared as two closely separated blips which the operator attempted to keep at the same height on the display by turning the antenna towards the shorter blip. This system offered much faster feedback on changes in the target position and operators could achieve accuracy on the order of a degree. Changes in signal strength, due to changes in the reflection of the target, affected both lobes equally, eliminating common-mode reading errors. An almost identical system was used in the United States's first gun-laying radar, the SCR-268.
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