The Gruppenhorchgerät ('group listening device', abbreviated GHG) was a hydrophone array which was used on vessels of the German Kriegsmarine in World War II.
In World War I carbon microphones were still used as sound receivers. The individual receivers were mostly placed in the front part of the vessel along the hull sides to have enough distance from the screw and the noise they emitted. The individual microphones were arranged in groups and each was oriented in a different direction. The individual microphones had to be connected manually to take bearings. They were not very reliable, so other transducers were experimented with. Dynamic microphones were also discarded. At the end of the process, the piezoelectric principle was deemed the most suitable. This was discovered by Pierre Curie in 1880. The quartz crystals generate electric voltage depending on the pressure acting on it.
In collaboration with the Imperial German Navy, Atlas Werke AG in Bremen and Electroacustik (ELAC) in Kiel worked on piezoelectric transducers and the development of detectors and amplifiers in general.They experimented with different kinds of crystals, or combinations of several of them. The best result rendered the Seignette crystal, which is formed from a mixture of different salts. From 1935 crystal receivers were permanently installed on all German submarines. Modern submarines still use electrostriction and barium titanate converters today.
The GHG for U-boats consisted of two groups of 24 sensors (one group on each side of the ship). Each sensor had a tube preamplifier. These 48 low frequency signals were then routed to a switching matrix in the main unit. The sonar operator could determine the ship's side and the exact direction of the sound source. To improve the resolution, there were three switchable crossover with 1, 3 and 6 kHz center frequency. A disadvantage of the side mounting, was a dead zone of 40 ° to fore and aft.Range: 20 km to individual drivers, 100 km against Convoy
Search area: 2 × 140 °Resolution: <1 ° at 6 kHz, 1.5 ° for 3 kHz, 4 ° for 1 kHz; without crossover 8 °
In August 1941 was captured by the British Royal Navy. Only in May 1942 the submarine’s ELAC equipment was thoroughly analyzed; the above resolution values were determined.
The GHG could not be used whilst cruising on the surface, and it could not effectively at periscope depth. The optimum operating modus was at a depth below 20 meter with a reduced speed of less than 3 knots. To solve this, a new listening device, known as Balkongerät ('balcony-device') was developed. It was mounted at the front and the bottom of a submarine, so it had less interference from surface noise. There was however now a dead zone towards the rear of the submarine. The Balkongerät was successfully tested on in January 1943. It was installed on some small Type VII submarine and was standard on the new large Type XXI submarine[1]
German Capital ships were equipped with the GHG typ 57 manufactured by Atlas, Bremen. It consisted of 60 crystal microphones and had a typical range of between four and six kilometers, although in most favourable circumstances a range of 40 kilometers was possible.