Klein Heidelberg

Klein Heidelberg (KH) was a passive radar system deployed by the Germans during World War II. It used the signals broadcast by the British Chain Home system as its transmitter, and a series of six stations along the western coast of continental Europe as passive receivers. In modern terminology, the system was a bistatic radar. Because the system sent no signals of its own, the allies were unaware of its presence, and did not learn of the system until well after the D-Day invasion. The system is referred to as Klein Heidelberg Parasit in some references.

History
Chain Home's (CH) large antennas could be seen from the French coast, which meant the Germans were aware of their precise location. Their fixed-direction broadcasts towards the continent meant it was easy to determine which signal was broadcast by which station. This was aided by the way the stations spread out their broadcasts in a series of time slots, known as "running rabbits", which allowed a signal pulse to be traced back to a particular station through its timing.

Beginning in 1942, Dr. Wächter of Telefunken, working with radio engineers at the Reichspost, used this information to build a passive radar system using the CH broadcasts and their own receivers. This was not unlike the Daventry experiment setup that had first been used to demonstrate the radar concept in the UK in early 1935. In both cases, broadcasts from a distant station were used as a signal, and when an aircraft flew into the signal it reflected some of it to the receiver, creating a distinct "blip" on the display.

To this basic concept, Wächter added the ability to measure the rough azimuth of the target by turning the entire antenna and looking for the maximum signal. CH's relatively long wavelength, around 6 m, demanded very large receiver antennas and fairly complex antenna systems to support this rotation. Another side-effect of the long wavelength was that the angular resolution was relatively low, and although a lobe switching system was considered, it was apparently never used in service.

Several test systems were trialled at Cherbourg in 1942 and 1943. The first operational KH system was built at the Nachtfalter (Moth) jamming station at Mont de Couple between Boulogne and Calais, across the English Channel from Dover, which became operational near the end of 1943. A second station at Oostvoorne in the Netherlands (Biber) followed in the spring of 1944. Four more stations were completed in 1944, Vaudricourt (Skorpion), Oostende (Bremse), Cap d'Antifer (Auerhahn) and Cherbourg (Tausendfüssler). These were built on Wassermann radar antennas, and sometimes used the Wassermann's own signals for height-finding duties.

Description
The system used two antennas, a very large one on a rotating platform that was used to receive the signal reflected off the aircraft, and a much smaller one positioned about 60 m away that received the signal directly from the CH station. The signals from both antennas were sent to two CRTs taken from the Würzburg radar, which, in typical German fashion, were used as J-scopes. This means distances are measured as the angle around the face of the tube, rather than the linear distance across it. A graduated scale around the outside of the CRT was used to measure the angles of the various "blips" in mils (0 to 400).

The operator would first select a single CH station by changing a timer so it picked up only the signals from that station. CH stations broadcast in time slots, one after the other, so it was easy to select a single station using a simple timer. Once the station was selected, the signal was examined on the left of the two displays, which showed the entire $1/undefined$ of a second that was allocated to that CH station. Using a hand wheel, the operator adjusted the timing until the main blip of the directly received signal was at the 12 o'clock position. Once this was done, the right-hand CRT, showing only the first $1/undefined$ of the time slot, was used to make finer measurements. This scope's maximum time corresponded to a range of 300 km, but by delaying its sweep the operator could continue tracking as the aircraft flew over Germany.

Measuring the angle around the face of the display revealed the difference in the signal's time of arrival compared to that of the direct signal, as an elapsed time. There are an infinite number of locations that correspond to any measured time difference, and when plotted, they produce an ellipse with the CH station at one foci and the KH receiver at the other. Each set of ten numbers on the circular scale, say 100 to 110, was assigned to a pre-calculated ellipse, in this case ellipse 10. The operators could then look up that ellipse on a set of provided charts.

To measure the angle to the target, the larger antenna was rotated around its vertical axis until the selected target blip was maximized, or alternately disappeared, or "nulled". The angle could then be read off another graduated scale. The charts showed the ellipse and the location of the KH station; a line was drawn outward from the station's location at the measured angle, where it would eventually intersect the ellipse, locating the aircraft.

Estimates vary as to the effectiveness of the system. Prichard quotes a range accuracy of 1 to 2 km with a bearing accuracy of 1 degree at 400 km range, while Price suggests 6 miles at 280 miles. Given the lack of lobe switching, the angle accuracy was more on the order of 10 degrees (+ or -5 degrees).